Polymers in Sport and Leisure

Report 135
Polymers in Sport
and Leisure
R.P. Brown
Volume 12, Number 3, 2001

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Source of
original article
Title
Location
Item 1
Macromolecules
33, No.6, 21st March 2000, p.2171-83
EFFECT OF THERMAL HISTORY ON THE RHEOLOGICAL
BEHAVIOR OF THERMOPLASTIC POLYURETHANES
Pil Joong Yoon; Chang Dae Han
Akron,University
The effect of thermal history on the rheological behaviour of ester- and
ether-based commercial thermoplastic PUs (Estane 5701, 5707 and 5714
from B.F.Goodrich) was investigated. It was found that the injection
moulding temp. used for specimen preparation had a marked effect on the
variations of dynamic storage and loss moduli of specimens with time
observed during isothermal annealing. Analysis of FTIR spectra indicated
that variations in hydrogen bonding with time during isothermal annealing
very much resembled variations of dynamic storage modulus with time
during isothermal annealing. Isochronal dynamic temp. sweep experiments
indicated that the thermoplastic PUs exhibited a hysteresis effect in the
heating and cooling processes. It was concluded that the microphase
separation transition or order-disorder transition in thermoplastic PUs could
not be determined from the isochronal dynamic temp. sweep experiment.
The plots of log dynamic storage modulus versus log loss modulus varied
with temp. over the entire range of temps. (110-190C) investigated. 57 refs.
GOODRICH B.F.
USA
Accession no.771897
Authors and
affiliation
Abstract
Companies or
organisations
mentioned
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Infrared and Raman Spectroscopy of Polymers,
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Polymers in Sport
and Leisure
R.P. Brown
ISBN: 1-85957-289-8

Polymers in Sport and Leisure
Contents
1. Introduction.............................................................................................................................................. 3
2. Artificial Surfaces .................................................................................................................................... 4
2.1 Synthetic Grass Surfaces ................................................................................................................ 5
2.2 Athletics Tracks .............................................................................................................................. 6
2.3 Sports Hall Floors ........................................................................................................................... 6
2.4 Equestrian Use ................................................................................................................................ 7
2.5 Synthetic Snow and Ice................................................................................................................... 7
2.6 Playgrounds .................................................................................................................................... 8
2.7 Ground Conditioning ...................................................................................................................... 8
3. Clothing .................................................................................................................................................... 8
4. Ball Games................................................................................................................................................ 9
5. Athletics and Gymnastics...................................................................................................................... 11
6. Winter Sports ......................................................................................................................................... 11
7. Water Sports........................................................................................................................................... 12
8. Motor Sports .......................................................................................................................................... 13
9. Cycling .................................................................................................................................................... 13
10. Miscellaneous ......................................................................................................................................... 13
11. Standards ................................................................................................................................................ 14
12. Conclusion .............................................................................................................................................. 14
Additional References ................................................................................................................................... 14
Appendix 1: International Standards ......................................................................................................... 15
References from the Rapra Abstracts Database .............................................................................................. 21
Subject Index ........................................................................................................................................................ 95
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1

2
Polymers in Sport and Leisure

Polymers in Sport and Leisure
1 Introduction
The general social and economic trend is that people
live longer, work shorter hours, retire earlier, and have
more free time and more disposable income. The
obvious result is that increasingly they have more time
and money to spend on leisure activities. Relatively
recently, there has been something of a crusade to
persuade people that they should actively exercise to
improve health and fitness. The result, not surprisingly,
is that now the majority of the population in, for
example, the United Kingdom participate is some form
of sport or exercise on a regular basis. It is unlikely
that this trend will change in the near future.
Governments and sports bodies have been aware of the
value of sport in contributing to health and have
encouraged participation, particularly amongst children
and those nearing retirement. Large sums of both public
and private money have been invested in improved
facilities for sports activities.
It is rather difficult to define the boundaries of what
constitutes sport and leisure, which impacts on making
sensible estimates of the total size of the market. Games
such as soccer, baseball, cricket and hockey, together
with athletics, are quite clearly understood to be sports.
Many people consider angling to be a sport although
in some of its forms it does not involve great exercise.
Walking can be considered a sport or simply a leisure
activity which involves exercise, but it certainly
represents a significant market in footwear and clothing.
Similarly, much of the participation in sailing, horse
riding, cycling and motoring is a pastime rather than a
sport but would generally be considered in the sport
and leisure market. Gardening is an extremely popular
leisure activity but is not thought of as sport. In terms
of the market it is also possible to consider the
expenditure by spectators rather than participants on
items such as promotional clothing to disposable
binoculars for viewing. Defining the market accurately
is perhaps not important but it can easily be appreciated
that it is very large and very diverse.
Whilst the participation in sport and leisure activities,
and hence the market for sports goods, has been
generally increasing there have been, and doubtless will
continue to be, marked changes in the popularity of
particular activities. The growth of some activities can
be related to the availability of facilities. Several
decades ago there were few golf courses, squash courts
or gymnasia available to the public and the range of
sports which could be called popular was much more
limited than now. The increase in popularity and the
availability of facilities inevitably have a financial link
both in the level of investment by the public and private
sectors and the ability of the population to afford the
activity. An obvious example is skiing and other winter
sports which previously were afforded by very few
people. Inevitably, the widening of the range of
available activities has adversely affected some
traditional sports, notably team games, although this
has been largely masked by the overall increase in
participation.
Fashion has a significant effect on sport popularity; it
is doubtful that the enormous rises in the use of
gymnasia or walking were predicted in advance, nor
what causes the rise and fall in interest in skate
boarding. Fashions can change rapidly and, as with
most things, vigorous marketing by commercial
interests can be very persuasive on the public. Hence,
it is probably impossible to confidently predict which
areas will enjoy significant growth and which will suffer
decline in the next decade. However, it is likely that
the largest growth will be in individual sports rather
than team games and that diversification will continue.
Figures for the USA show that overall spending on
sports goods rose at 3%-6% annually through the
1990s but was a little less in 1999 (130). This included
a significant drop in footwear, particularly for
basketball, but an increase in demand for exercise and
soccer equipment! It is significant that the spend on
athletic footwear was said to be twice that on sports
equipment. The US sales for sports equipment and
recreational transport was reported as about $40
billion in 1998 (171).
The expansion of the sports and leisure industry has
been nothing but good news for the polymer industry.
This has not simply been because of the volume
increase in sports goods but because of the inroads
polymers have made in replacing traditional
materials in this sector. Rubbers or plastics are found
in a huge range of sports-related products from
playing surfaces to footwear and clothing and there
are extremely few areas where they have not become
important. One facet of this is the immense variety
of products, and materials, that make up the market,
some being in very significant quantity but others
that are small niche markets.
Sport is competitive and although there are often cost
advantages in using polymers the main impetus for their
adoption has been performance. It follows that many
applications are for technically superior materials. The
participants are often prepared to pay whatever it takes
to have the best equipment at the top end of the market
and this applies even for amateur and recreational use
3

Polymers in Sport and Leisure
as well as for top competition. Hence, in many areas
the sports market is potentially very lucrative. This
situation can be seen in sports footwear with leading
manufacturers developing technically advanced and
complicated designs, often for specialised purposes,
which are sold far more widely than to the professional
sports person. However, there are also strong markets
for higher volume but lower value products such as the
fibres in basic hiking and camping clothing.
The introduction of new materials can have very
significant and even dramatic effect on the performances
achieved. This has been the case with for example
vaulting poles, golf clubs and tennis rackets. Improved
performance has had effect on the rules of some sports
but generally rules have not prevented quite radical
material developments being accepted.
A second reason for the introduction of polymers is
the convenience of use that they can provide. This may
be in comfort, improved consistency over natural
materials or extended product lifetime. A notable
example is seen in artificial surfaces which can stand
very concentrated usage in all weather conditions.
A further important reason for the use of polymeric
materials is for improving safety, where cellular
materials in particular are very effective. Considerable
effort has been expended in developing materials for
such applications as equestrian protective jackets,
gymnastics mats and children’s playground surfaces.
In many cases, the reasons for the success of polymers
are complementary. Modern vaulting poles improve
performance and are inherently less likely to break,
whilst artificial surfaces can offer advantages of
performance, consistency, safety and cost.
As mentioned, the range of materials that find
applications in sport is very wide. In 1998,
polyurethanes and engineering plastics were said to
make up 58% of advanced materials used in sporting
goods with fibre reinforced materials accounting for
14%, although it was thought that the latter together
with metals would increase market share (82). For
moulded sports products, polypropylene accounts for
3 times the share of the next nearest plastic,
acrylonitrile-butadiene-styrene (171). This article also
comments on the diversity of sports mouldings and
considers that new and interesting applications are still
being found. Tyre crumb is an important constituent of
artificial surfaces and playgrounds but the total tonnage
is not huge (40,000 tonnes per annum in the UK
including use in carpet underlay) and is only about 10%
of the weight of tyres scrapped.
The increase in the use of polymers in sport has led to
an increase in testing and specification. This results from
newer materials changing performance, usually for the
better, and the need to supplement the rules of the game
to ensure consistency when a variety of materials and
designs may be in use. Probably the greatest efforts have
been made in artificial surfaces where one factor is the
need to ensure quality because of the large capital
investment needed for an installation.
2 Artificial Surfaces
Artificial sports surfaces have been used successfully
for approaching 40 years (the first synthetic grass pitch
was installed at the Houston Astrodome in 1966) and
rubber-based athletics tracks were widely introduced
in the 1970s. Playing surfaces for both indoor and
outdoor use have utilised a variety of polymers and a
multitude of different designs to cater for a wide range
of activities. In fact there are few sports that cannot be
played successfully on a polymeric surface.
For outdoor surfaces the first attraction is the capability
for sustained use. They can be constructed to be
essentially immune to weather problems and can be
played on 24 hours a day if required. Although a
synthetic turf installation may cost upwards from
£250,000, this concentration of use makes them very
cost effective, particularly in urban areas where land
may be astronomically priced. The number of pitches
and supporting facilities needed can be reduced
compared to turf. The relative lack of essential
maintenance is also attractive and being always
available makes for high convenience. In some parts
of the world, such as the Middle East, they are
effectively the only solution to the desire for sports
facilities because of the difficulty of sustaining grass.
In northern European countries, winter training would
be severely restricted without the synthetic surfaces.
The only criticism that can be realistically levelled
against synthetic turf is that even after decades of
development it is not the same as real turf. That is not
to say it is necessarily inferior, it will always have
advantages of consistency under different weather
conditions and the case of hockey illustrates how it can
be inherently better in playing performance. However,
traditions can be hard to die.
Artificial athletics tracks quickly proved to be superior
in all respects to the cinders used previously. Rubberbased
playground surfaces have a clear advantage in
terms of protection from injury due to falling.
4

Polymers in Sport and Leisure
For indoor use, the attractions of synthetic surfaces
were a combination of lower cost compared to sprung
wooden floors, improved safety compared to
concrete and enhanced performance by tailoring for
particular sports.
The boom in the installation of artificial surfaces in
most countries was through the 1980s and today there
are synthetic grass pitches and sports halls in virtually
all towns. At one time there were over 60
manufacturers supplying more than 250 different
artificial surfaces in the UK alone, but inevitably there
has been a levelling off as the demand became
satisfied.
2.1 Synthetic Grass Surfaces
The original construction of a synthetic grass surface
comprised a stone sub-base, a macadam base, a foam
shock pad layer and the synthetic carpet. The carpet is
a knitted or tufted, three-dimensional fabric in which
the ‘grass blades’ are incorporated into the fabric
structure, approximately perpendicular to the fabric
backing. In a knitted carpet the filaments forming the
turf and the backing yarns are interlaced in a single
production step. With tufting, a separate woven fabric
acts as a substrate into which the turf filaments are
inserted and fixed with a latex backing.
Some early constructions had an impervious base and
were crowned to allow water run off but permeable
bases quickly became standard. The foam shock pad
was shown to be erroneous thinking as it ‘bottomed
out’ under even modest impacts. Crumb rubber shock
pads became standard when it was realised that
although much stiffer they actually gave much better
protection. The shock pad is a sheet of crumb rubber
bound together with a polyurethane. It can be factory
made as individually moulded sheets or as a roll, or it
can be wet poured and compacted on site. Factorymoulded
sheets can have the under surface profiled
to improve energy absorption whilst using less
material. The thickness of the shock pad would be
typically between 10 and 25 mm.
The next development was the so-called sand-filled
surfaces in which the carpet has a more sparse and longer
pile (between 15 and 25 mm). Graded sand is brushed
between the fibres of the pile to a specified depth. This
construction came to be used in the majority of
installations because of the obvious large cost savings
and because it could better reproduce the characteristics
of natural turf, particularly for ball bounce.
The rigid, so-called engineered base is costly and
imposes limitations on the playing characteristics that
can be achieved. A considerable variety of alternative
constructions with a ‘dynamic’ base have been used.
These are composed of some combination of graded
sand, rubber granules, a permeable membrane and resin
impregnated needlepunch which may also eliminate
the traditional shock pad. Such constructions are not
simply a matter of cost saving; variation in the details
of design allow playing characteristics to be tailored
to meet the needs of a number of sports. An inevitable
disadvantage is that it is much more difficult to achieve
and maintain a flat surface with high dimensional
stability. A further approach is to incorporate rubber
into the asphalt layer, giving it some impact absorbing
properties (286).
Synthetic grass has been made from nylon, polyolefins
or polyester, normally as extruded monofilaments.
Variations in the dimensions and characteristics of the
individual filaments, the pile density and its angle to
the base have been used to significantly vary properties
such as friction and ball roll. However, in sand-filled
constructions most of such effects are masked.
Contrasting colour carpet can be inserted to form
permanent line markings. Needlepunch carpet has been
successfully used for such sports as bowls and could
be considered as very short and fine synthetic turf.
FieldTurf (www.fieldturf.com) is an example of a
modern advanced construction. The fibres are a
polyethylene and polypropylene mixture, treated and
arranged in a pattern which is said to better emulate
real grass than previous surfaces. The carpet is infilled
with a mixture of sand and ground rubber, which
supports the fibres in a similar manner to natural earth,
and is claimed to be resilient and non compactible. The
resilient, relatively thick infill makes a shock pad
unnecessary and the carpet is laid on a porous
membrane over a stone base.
The principal attractions of synthetic turf are all weather
capability, resistance to concentrated use, freedom from
bumps and divots that plague natural grass, and low
maintenance. The evenness has greatest advantage for
sports in which the interaction of a relatively small ball
is important, such as hockey and tennis. Maintenance
consists of little more than vacuuming or sweeping,
typically at weekly intervals. This is in very sharp
contrast to natural turf which needs constant attention:
line marking, watering, fertilising and resting for long
periods. Pitch maintenance is particularly onerous for
cricket and it was said in the early days of synthetic
surfaces that they would be needed for cricket in
schools or the game would not be played because
natural pitches could not be afforded.
5

Polymers in Sport and Leisure
In the 1980s, many synthetic grass pitches were
installed for playing soccer, including a small number
at English Football League grounds. Through a not very
convincing argument, synthetic pitches were banned
at the higher levels and that put a brake on their adoption
generally. However, at lower levels and for
multipurpose use they have continued to thrive and are
also used by league clubs for training.
The case for soccer is in marked contrast to that for
hockey where the adoption of synthetic pitches is
virtually universal and the increased speed of the ball
and the guaranteed smooth surface has transformed the
game. Synthetic turf is used for several other sports but
the volume is small compared to hockey and football.
can be varied to produce tracks having different levels
of durability and cost. When the top surface of a cast
track becomes worn, it can be ground smooth and a
new topping applied.
Clearly, tracks needs to be laid without undulations and
to a carefully controlled thickness - not a simple task
over the areas involved. However, with a cast system
irregularities in the base can be compensated for.
Tracks have also been constructed from prefabricated
sheets of a number of polymers including styrene
butadiene rubber, polychloroprene and polyvinyl
chloride. These are mostly used for indoor installations
where an uneven base is likely to cause fewer problems.
2.2 Athletics Tracks
Polymer tracks were first laid as long ago as 1957 and
one was used for the 1964 Olympics. Since then they
have become universal and completely superseded
previous constructions.
Polymeric track construction can be solid cast rubber,
resin bound rubber crumb or shred, or prefabricated
rubber sheet. Outside tracks are generally laid on a
macadam base. The original systems were cast rubber,
either polyurethane or a natural rubber or
polychloroprene latex, with a dressing of rubber chips
or granules. They have particularly good wear
resistance but are impermeable.
Bound rubber crumb systems are composed of rubber
shred or granules in a polyurethane binder and topped
off with a sprayed on layer of coloured rubber granules
in polyurethane. The basic construction is similar in
principle to that used for shock pads and children’s
playgrounds. Variation of the materials allows
considerable scope to modify properties and the track
can be porous to eliminate the need for a slope to allow
drainage. The athletics tracks require the higher level
of bound crumb, not least because of the need for very
high durability and resistance to spikes. The choice of
granule is very important and differences in size, shape
and surface texture can markedly affect both
performance and strength.
The casting may be done in more than one layer and
there can be a composite of a bound crumb underlayer
with a solid top. By variation of the constituents the
properties can be changed significantly and
developments have been aimed at producing tracks
which improve the athlete’s performance. The materials
2.3 Sports Hall Floors
Traditional sports hall floors were made of wood, often
sprung, or in the poorest circumstances painted
concrete. Over the last few decades there has been a
large rise in the demand for and the provision of sports
halls. The range of sports to be catered for has increased
considerably and people have increased their
expectation as to the quality of facilities.
The introduction of polymeric surfaces has seen the
use of just about all possible materials and
constructions. Where a hall or part of a hall is to be
devoted to one sport a surface can be selected which is
particularly suitable for that given purpose. However,
in most cases the hall will be multipurpose and it is
obvious that no one surface can be equally satisfactory
for all the sports to be played on it. The selection then
becomes a matter of compromise. This compromise
may have to include use for non sporting activities.
The properties to be considered include:
• Stiffness,
• Resilience,
• Impact absorption,
• Friction,
• Acoustic properties,
• Colour and gloss, and
• Durability.
When considering stiffness, distinction can be made
between point elastic and area elastic surfaces. A rubber
shock pad is essentially point elastic, i.e., the
deformation from an impact is essentially confined to
a small area. On the other hand a sprung floor is area
6

Polymers in Sport and Leisure
elastic, i.e., the deformation from an impact spreads
over a considerable area. The use of a soft rubber sheet
on a sprung floor can produce both point and area
elasticity depending on the magnitude of the impact.
The sprung wooden floors achieve their impact
absorption properties from this area elasticity, but at
the same time they are stiff or hard enough that you
could, in principle, roller skate on them.
The disadvantages of the traditional floors were the
complicated installation, high cost, noisiness, vibrations
affecting non participants and possibly low friction.
Polymers have been used with wooden floors, often in
the form of foam pads, to provide a degree of spring at
lowered cost. The flooring is laid on battens which in
turn are supported by the pads. Such structures can be
prefabricated to simplify installation.
Polymers are also frequently used in the form of sheets
or carpet to provide an additional top layer to a wooden
floor which improves a number of the properties. The
obvious disadvantage is even higher cost.
Composition blocks, made of such things as sawdust
and cement bound together with a resin, were
introduced many years ago as a much cheaper
alternative to wood. They have enjoyed great popularity
because of the cost and durability but provide negligible
impact absorption.
Whatever the basic floor, a variety of polymers in tile
sheet or carpet form can be laid to provide specific
properties and good durability. These include rubber,
polyvinyl chloride and nylon or polypropylene carpet.
A great many products have been introduced and there
is strong competition. Simple sheet or carpet can
provide very satisfactory friction, noise and optical
properties for many sports and the impact absorption
is improved over hard solid floors. However, they are
still relatively hard and improvement can be made by
adding a foam backing. Carpets on polyurethane foam
backing have been found suitable for court games such
as tennis where ball response is very important. Rubber
sheeting can be textured and can provide resilience,
good friction, and can even be tough enough to resist
damage from spikes.
Further improvement in playing characteristics,
particularly in impact absorption, can be achieved by
various designs of laminated floors, which consist of
layers of foam, a rigid material such as chipboard and
a polymeric sheet or carpet top surface.
As said previously, the choice of a sports hall floor is
frequently a matter of compromise between the
requirements of several sports. A means by which this
problem is often ameliorated is to have secondary roll
out surfaces that can be placed for a particular activity
and removed afterwards. If, for example, the main floor
is a rubber sheet, a suitable carpet can be laid over it to
give a surface for playing bowls or cricket. Although
this adds to the cost, in the examples given the area
needed may be relatively small.
2.4 Equestrian Use
Bound rubber crumb or shred products of various types,
and even plaited strips of old tyres, have been used to
make entrances to arenas and road crossings safer for
horses. One example is interlocking rubber bricks from
scrap tyres (85). Shreds of scrap polymer mixed with
sand have been used to form training areas but it is not
clear how successful such products have been. A liquid
polymer/sand system was developed to make artificial
horse race tracks but this did not always retain its
performance characteristics.
2.5 Synthetic Snow and Ice
The opportunities for winter sports in the UK are
somewhat limited geographically and seasonally. As
these activities rose in popularity there was an increased
demand for ice rinks and for ski slopes. The high capital
cost of constructing an ice rink led to the use of plastic
substitutes. Polyethylene panels were claimed to look
and perform like ice but to reduce energy and
maintenance costs by 60% and to cost half as much to
install. The surface only required daily vacuuming and
weekly polishing with a silicone-based compound. A
high density polyethylene sheet material called Super
Ice (258) is in the form of coated wooden panels which
join together with a tongue and groove system. It is
claimed to have 90% of the glide factor of real ice and
to have a lifetime of at least 5 years.
In a skating facility, a very high wear area is at the
entrance to the rink where skaters can leave the ice at
speeds of 50 km/h and then use the picks at the toe of
the skates to brake. The flooring needs to resist the
cutting action of the skates but to cause no damage to
the ground skate blade. One solution was to use silicafilled
natural rubber tiles which have good wear
resistance and low water absorption.
Synthetic ski slopes have probably been more
successful than skating rinks. There have been two
basic types of construction: interlocking moulded
7

Polymers in Sport and Leisure
polyolefin units with a number of ‘spikes’ forming
the surface, and polyvinyl chloride or nylon filament
brushes held in a metal channel. The latter appeared
to give better performance.
2.6 Playgrounds
Traditional children’s playgrounds were asphalt or
hard, compressed turf essentially bare of grass.
Concern over injuries has led to the installation of a
very large number of safety surfaces based on bound
crumb or shred rubber, similar in concept to the
synthetic turf shock pad.
The surface can be cast in-situ or constructed of
preformed tiles. Generally, the level of impact
absorption required is greater than for shock pads or
athletics tracks. The top surface needs to be suitably
wear resistant but not to the level of a track and usually
spikes are banned. To obtain the necessary absorption
capability to protect against falls from heights as great
as 3 m needs a relatively thick surface, but rather more
deformability can be tolerated than for sports surfaces.
For cast in-situ systems, the level of impact absorption
can be increased by using two layers, the lower one
having a particularly open structure. For preformed tiles
a so-called engineered construction improves impact
absorption by having a webbed structure on the
underside which buckles under impact. As for sports
surfaces, a dynamic base can lower costs and improve
impact absorption.
Less common is the use of a needlepunch or synthetic
turf carpet over a shock pad and/or a dynamic base.
2.7 Ground Conditioning
An alternative to replacing natural turf with synthetic
is to use polymers to improve the performance,
particularly the durability, of the natural material. In
this way the traditional characteristics and appearance
are retained. The basic concept is to introduce a
reinforcing structure and is particularly applicable to
high wear areas such as goal mouths.
Polypropylene needlepunch material has been used
with the grass seed sown below it and the open structure
of the needlepunch filled with soil. Although under very
heavy wear the grass may be worn away, play can
continue on the needlepunch and the root structure is
retained for the grass to regrow. Geotextile ‘netting’ is
also used for this purpose and is sometimes seen in car
parks (396). Another approach is to incorporate rubber
crumb or shred into the top few centimetres of soil.
Crumb can also be used as a top dressing where it is
claimed to protect the grass root system and reduce
compaction (299).
Where sports grounds have to be built on land with
adverse soil conditions, needlepunch membrane is used
as a filter to protect the drainage course from infiltration
of the sub-soil. This is similar to its use in dynamic
bases for synthetic surfaces.
Problems with natural turf include water logging and
freezing. Drainage systems are a significant outlet
for unplasticised polyvinyl chloride pipe and a
heating system using polyethylene piping has been
described (54).
3 Clothing
Special clothing is either necessary or is desirable for
all sports and it is not surprising that large amounts
of synthetic fibres are consumed. As a generality,
sports clothing is technically not dissimilar to normal
clothing but there is, for example, a particular need
for breathable fabrics in activities such as walking
and climbing.
A particular requirement in some sports is for
protective clothing, where foams are frequently used.
An example is protective jackets for equestrian use
which are now mandatory in several branches of riding
activity. The degree of protection is compromised by
the restrictions of what is too uncomfortable to wear
and during the 1990s there was competition amongst
suppliers to improve impact absorption without
increased thickness.
Shin guards and similar items are another example.
An effective design has a foam interior with a rigid
moulded plastic shell. Gloves are produced from a
variety of materials for a range of particular
applications. Some include padding or a latex non
slip surface.
A different example is the fire resistant Nomex fabric
used in underwear, balaclavas, gloves, boots and race
suits for motorsports. A combination of Kevlar,
silicone gel and closed-cell foam has been used in
knee pads for mechanics and Kevlar heat sleeves can
protect them when working on hot engines.
8

Polymers in Sport and Leisure
Protective helmets used in motorsports, cycling and
horse riding activities are made from thermoplastics
or reinforced plastics. The design of motor sports
helmets is very sophisticated and they can command
prices of up to £900.
In a number of sports there is need for goggles, visors or
face masks. These utilise such materials as polycarbonate
for the lenses. There have been numerous attempts to
find a clear replacement for the metal mesh face masks
used in fencing. Recently, one company has been
successful using polycarbonate. The lens is made in two
layers, one about 3 mm thick and a top layer about 0.5
mm thick. The disposable outer layer protects the base
layer from possible environmental stress cracking and
from the stress concentrations which could be produced
by blade damage on the surface (a.1).
The single highest value sector of sports goods is
footwear, with the leading manufacturers competing
to produce more and more technically advanced
designs. In many sports the athlete’s feet are subjected
to high dynamic loads, as much as 8 times body weight
in basketball, and the footwear is critical in giving
protection, providing traction and optimising
performance. The forces involved on the heel differ
from those on the forefoot and the specific requirements
depend on the sport in question. It is not surprising
that a modern sports shoe is a complicated construction
with many components and that there are many
variations in design. Apart from performance
considerations, the sports footwear market requires
strong aesthetic appeal and it can be difficult for a non
expert to understand which features actually enhance
performance and which are purely for looks.
A variety of polymers are used in sports footwear.
Trainers commonly have a rubber outsole, which may
be multicoloured or include clear thermoplastic
elements. Common materials for midsoles are cellular
ethylene vinyl acetate and polyurethane, and there can
be inserts such as polyurethane air bags and torsion
bars made from thermoplastics or even carbon fibre
reinforced polyester. Uppers are often made from
polyvinyl chloride coated fabrics and there can be
additional components such as Goretex linings, foam
cushioning and polyurethane heel supports. Shoes for
such sports as football and running have semi-rigid
soles made from such materials as thermoplastic
polyurethane.
A design of hiking boot uses a Hytrel insole, while
nylon has been used for the sole plate of running shoes
and glass reinforced nylon for a moulded cycling shoe
(48). Ethylene vinyl acetate and polyurethane compete
to produce lighter midsoles and density down to 0.25
g/cm 3 is now obtained with polyurethane which is
comparable with remoulded ethylene vinyl acetate
(Phylon) (77). Boots for skiing and skating are based
on a thermoplastic shell with a variety of plastic and
metal attachments.
4 Ball Games
The rubber ball must be the earliest use of polymers in
sport, apparently being known to the inhabitants of
South America when Europeans first crossed the
Atlantic. It is certainly a very long time since golf balls
were made of anything other than polymers; the gutta
percha ball was introduced in the mid 19th century and
the wound rubber ball as early as 1898.
The ‘classic’ construction of the three-part golf ball is
a complicated process; polyisoprene thread is wound
over a small solid rubber core and the cover formed
from balata or Surlyn. The solid or two-part ball has a
solid rubber core with a Surlyn cover and can be
compression or injection moulded. One-part balls can
be of rubber, polyurethane or Surlyn but the optimum
performance characteristics cannot be achieved by this
construction and they are used by beginners to practice
and on driving ranges.
The somewhat conflicting requirements for a golf ball
(speed and distance through the air, behaviour on the
ground, control of spin and toughness) mean that all
properties cannot be optimised in one design.
Generally, the three-part ball gives better control at
the expense of distance for given power input. As well
as the materials, the design of the dimpled cover is
critical to performance.
Development of the golf ball is limited to a considerable
extent by the regulations enforced by the sport’s
governing body. If balls which could travel significantly
further were allowed, the golf courses, which represent
very large investment, would appear too small. The
aerodynamic design is also limited by the requirement
for it to be symmetrical.
This has not stopped there being intense competition
between manufacturers and continuing efforts to make
improvements. A recent development has been tungsten
filler which partly reduces the amount of traditional
fillers (108).
Tennis balls also require specialised production techniques
and are again regulated by a specification. The bounce
9

Polymers in Sport and Leisure
characteristics of pressurised tennis balls are dependent
on the internal pressure, which is typically 100 kPa
above atmospheric. As air permeates out, the pressure
drops and the playing characteristics change. The loss
can be reduced by filling with a gas that permeates
more slowly than air or by using an elastomer with
lower permeability. Special containers manufactured
from such materials as acrylonitrile-butadiene-styrene
are produced to maintain the pressure of gas-filled balls.
Unpressurised balls rely on the material which forms
the wall (such as butadiene (310)) to provide the
necessary resilience. Titanium has been added to the
rubber compound to improve performance (174).
The traditional leather football became very heavy
when wet and quality was very variable. Balls made
from polyvinyl chloride, ethylene vinyl acetate or
polyurethane will be much more consistent, and where
leather is used it is coated with an elastomer to prevent
water absorption. However, the characteristics can vary
according to the material and construction used and a
survey back in 1985 found that a range of balls all
complying with the regulations varied by 15% in
resilience. Moulding the shell of a ball on to which the
exterior panels are attached means it can have an
integral bladder. Polyurethane appears to have become
the most usual material and one innovation incorporates
a cellular structure (186). Balls for basketball, handball
and softball are essentially similar to those for football.
A polymeric coating on high-class rugby balls enhances
the grip in wet conditions.
Squash balls are of relatively simple construction being
basically rubber mouldings. However, the formulations
used may be complex and very specialised and are
jealously guarded. Different formulations are used to
produce a range of balls with different speed
characteristics to suit the various levels of skill which
exist in the sport, or which will not mark surfaces
against which they are hit.
Polymers have found it very difficult to oust the
traditional cricket ball but moulded polyvinyl chloride
balls are used at lower levels. Bowling balls, bowls,
croquet balls, table tennis balls and many others are
produced from various plastics. There are even rubber
or polyvinyl chloride medicine balls, polypropylene
rounders balls, foam balls resembling tennis balls, glow
balls, perforated plastic balls and Koosh balls in natural
rubber. Should you require it, there is a see-through
Budweiser bowling ball in polyester which contains a
replica of a Bud bottle (2).
Shuttlecocks are used in roughly the same way as a
ball. A method of making plastic shuttlecocks by an
advanced injection process whereby the polyamide skirt
is fully formed in the mould has been reported (366)
and which is claimed to yield a product closer to the
traditional hand-built feather designs than hitherto.
The ball is not the only item of essential equipment
needed to play most ball games. There are also bats,
racquets, sticks, goal posts, nets, etc. As with the balls,
there are restrictions imposed by the rules of the games
but there is enormous potential for innovative design
using polymers.
Tennis and squash racquets have been revolutionised
by polymers with the introduction of advanced
composites. After laminate construction replaced
solid wood, aluminium tennis rackets took over in
the 1970s but now fibre reinforced composites are
universally used. The earlier rackets used glass fibre
reinforced polyester but now more advanced
composites with carbon, aramid and boron fibres
have been introduced with high modulus carbon fibre
being standard. The advantages are based on the
stiffness to weight ratio and the control of the
racket’s characteristics which can be achieved
through geometry of the reinforcement. Also,
composites have better fatigue resistance and higher
damping. Other parts of the racket also utilise
polymers: polyamide bumper guards, polyamide and
polyester strings and rubber grips.
Composites also compete with metals in the
construction of golf clubs. Fibre reinforced shafts are
produced by winding prepreg onto a steel mandrel
which is later removed. An alternative is to use an
injection-moulded core, which is retained. Various
designs of fibre reinforced epoxy club heads have been
produced as well as metal heads with fibre reinforced
plastic inserts. By injecting a thermoplastic into a
hollow head, weight can be added preferentially in
given areas.
A composite-modified wood baseball bat for
professional use which uses carbon and Kevlar
composites has recently been patented (43), although
a similar product has also been reported (18).
Polymers find use in many ancillary products from net
bags to carry balls to glass reinforced plastic
backboards to basketball goals. Golf trolleys are
essential for some people and are yet another outlet
for polymers. One example uses nylon for the chassis,
gear housing from glass reinforced polyethylene
terephthalate, and nylon and acetate homopolymer for
the gears (397). A transparent top for a golf cart has
been made from polyester and an irons organiser from
nylon (72).
10

Polymers in Sport and Leisure
5 Athletics and Gymnastics
The major uses of polymers in athletics are for surfaces
and clothing, which have been discussed in Sections 2
and 3. Polymers have had enormous impact on the
sports in both these areas.
Another product which has had a major effect on
performances is the carbon fibre vaulting pole. The rules
covering vaulting poles are unusual in that they can be
made of any material and be of any length and diameter.
Indeed, it is necessary that the pole is individually
matched to the speed and mass of the vaulter. The poles
are hollow with varying thickness along the length and
top class poles are prebent. An analysis of the stresses
and design principles has been given by Burgess (161).
Polymeric foams are used extensively in mats for high
jumping and pole vaulting, gymnastics and martial arts.
They vary in thickness and foam density to suit the
particular application from 750 mm for a pole vault
landing area to 20 mm for an elementary exercise mat.
The foam is most commonly polyether or reconstituted
polyurethane but thinner mats sometimes use
polyethylene or ethylene vinyl acetate. The prime
objective of the mats is to provide impact absorption
but their resilience and stiffness is also important.
Particularly in sports such as judo, a large deflection
hampering movement could be more dangerous than
the effect of falling. Composite construction using
layers of different density can be used to obtain the
desired characteristics. The mats are typically covered
in polyvinyl chloride coated nylon and have a non-slip
rubber base. Mats are potentially a significant fire
hazard and in the UK are subject to stringent
flammability requirements which means that foams
must be of a fire retarded grade.
6 Winter Sports
Skiing was once something of a minority interest but
with increased leisure and cheap flights it has developed
into a mass sport. Winter sports have continued to grow
in popularity and represent a very large market for
sports goods. With this boom came increased
development of the equipment and polymers now have
a major position. In fact it is not an overstatement to
say that winter sports depend on plastics.
Wooden skis were unresponsive, absorbed water, were
heavy and were not very durable. Plastics have allowed
skiing techniques to improve, made the putting on and
taking off of skis easier, improved safety and comfort,
and reduced costs. Encasing a wood core in glass fibre
reinforced polyester was the first change followed by
the development of polyurethane foam cores. Quite
rapidly skis became a sophisticated construction made
up of many components which can include honeycomb
cores, advanced composites and a sliding layer of
graphite impregnated polyethylene.
The degree of effort put into development is illustrated
by French manufacturer Rossignol which has been
devoting over 3% of turnover to new product
development for 4 decades and has 200 employees
working in research (8). The introduction of modern
materials and construction techniques has been
accompanied by quite radical changes in the dimensions
and shape of skis. Shorter skis with noses at both ends
are said to provide something of a bridge between
conventional skiing and snowboarding and to be
extremely versatile. Generally, skis have become shorter
with the middle being markedly more narrow than the
ends. A wide range of polymers are used in ski and
snowboard construction including rubber as an interface,
glass reinforced epoxy structural components,
polyurethane or thermoset cellular core materials,
aramid, carbon and graphite fibres, polyethylene soles
and injected thermoplastic protective parts. Snowboards
have a similar type of composite structure.
As skiing became a mass sport it quickly became
apparent that leather boots were inadequate. As has so
often been the case with the introduction of polymers
the first step was replacing part of the product, an
injection-moulded thermoplastic sole in this case.
However, the first all-plastic boot appeared as early as
1967. A ski boot has to be extremely tough and retain
its properties at low temperatures. Polyurethane meets
these demands with different hardnesses being suitable
for different parts of the boot but other polymers are
now incorporated.
The binding which attaches the boot to the ski is a vital
component as it has the seemingly impossible task of
holding the boot securely throughout the stresses of
skiing but releases it when stresses reach a danger point.
Here too, plastics have replaced aluminium with several
materials having been used, notably fibre reinforced
nylon. One design uses Hytrel for the straps and hiback,
nylon for the base and acetal for the buckles (146).
To complete the plastics domination, top-of-the-range ski
pole tubes are made from hybrid fibre reinforced materials.
Apart from skis and snowboards, polymers are prime
candidates for use in the various sledges, toboggans
and other snow vehicles. One example reported
11

Polymers in Sport and Leisure
recently is a snow scooter which utilises a glass fibre
reinforced polyurethane hood manufactured by the
RIM process (32).
7 Water Sports
Developments in polymers have led to radical changes in
the design and construction of boats and other water sports
equipment. Probably the two most important contributions
have been in reduced cost and greatly improved strength
to weight ratio. The changes started with glass fibre hulls
and construction has developed to embrace a very wide
range of polymers including carbon and aramid fibre
reinforced materials and rigid foams. Boats account for a
major consumption of glass reinforced materials, which
are used in relatively very large vessels as well as small
pleasure boats and personal jet skis.
At the higher performance end, the advanced
composites give better fatigue resistance and this can
be improved further with sandwich constructions. The
better strength to weight ratio achievable results in
weight saving. An advanced racing boat design involves
carbon fibre reinforced epoxy skins and a polyvinyl
chloride foam core.
A strong sandwich construction is produced by having
a foam core between glass reinforced panels but a
departure from the use of fibre reinforcement is for
one or more of the skins to be made from a
thermoplastic. One design for a catamaran uses a
thermoformed skin, a cellular core and a glass fibre
reinforcing layer (351). The boats are rotomoulded
and produced much faster than by the more
conventional process.
Composites and sandwich constructions have not had
it all their own way in hull construction of smaller craft
and a multipurpose rowing/sailing/motor boat has been
moulded in polypropylene (110). It was reported that a
glass reinforced plastic pedal boat was not
commercially viable and was being replaced with
rotomoulded polyethylene (323).
Glass reinforced plastic canoes were extremely
successful and simple enough that people could build
them at home. For competition, improvements were
made by using carbon and aramid reinforcement such
as in Canadian canoes for the 1996 Olympics (321).
However, rotational moulding from high density
polyethylene is faster and more economic and takes
much of the market for recreational canoes. Kayaks
have been made from recycled high density
polyethylene by thermoforming and rotomoulding
(334) and also from thermoformed acrylonitrilebutadiene-styrene
which is said to produce a lighter
and stiffer craft than from other plastics (1).
Inflatable boats use elastomer-coated polyester or nylon
fabrics. The best rubber for the outer coating to give
long life is generally held to be Hypalon, with
polychloroprene being very satisfactory for the inner
layer, but polyurethane, butyl rubber and, at the lower
end of the market, polyvinyl chloride have also been
used. Some inflatables are composites in the sense that
parts of the hull are rigid, for example, made from glass
reinforced plastic.
Fabrics for sails are another important marine
application of polymers. It is surprising to be reminded
that cotton was replaced by nylon and polyester
something like 45 years ago and Kevlar was introduced
20 years ago. Polyester is considerably stiffer and
stronger than cotton, but for high-performance
applications Kevlar represents a 300% increase in
strength and 1000% increase in modulus.
The most recent materials are carbon fibre and
polybenzoxazole which have shown considerable
promise although there is still uncertainty about their
durability. The use of these newer materials is limited
by their high cost and the fact that their use has not
been sanctioned by some governing bodies.
Another material said to be showing potential (257) is
polyethylene naphthalate, which can be woven but also
heat shrunk to produce a fabric combining the durability
of a woven material with the performance of a laminate.
Apart from the main structural elements, both rubbers
and plastics find use in many marine components from
seats and decorative trim to oars and rowlocks. In boat
engines, glass reinforced nylon has been used in covers
and for the steering arm, and Viton fluoroelastomer
for shaft seals.
Surfboards are produced in the hundreds of thousands
annually from a polyurethane foam core covered with
glass reinforced polyester, the core blanks being carved
to shape before being laminated. A British company is
said to produce the best quality blanks using
methylenediphenyl isocyanate rather than toluene
diisocyanate (42). Alternative constructions are now
being introduced that have origins in windsurfing
technology and involve composite skins over expanded
polystyrene (62).
Elastomers also find outlet in swimming fins, caps and
masks. Thermoplastic elastomers are increasingly used,
12

Polymers in Sport and Leisure
e.g., in a novel twin bladed fin (21). Other applications
for elastomers are in wet suits and parts of diving gear.
If you prefer to stay on top of the water then buoyancy
aids are frequently made from polymeric materials.
Materials such as plasticised polyvinyl chloride and
polyurethanes, including foams, are extensively used
for seating and interior trim, although these tend to be
minimal in racing cars.
8 Motor Sports
The great majority of motor vehicles are not used for
what could be called sport although many car trips are
for recreational purposes. Nevertheless, many people
enjoy motor sport in its various forms which range from
trials (‘mud plugging’) to Formula 1 Grand Prix. It is
often argued that developments for racing cars
eventually influence the design of the everyday car on
the street and competitive motoring is one of the most
technical of sports.
The use of polymers in vehicles is dominated on a
volume basis by tyres. For sporting use the tyres may
be essentially similar to those used on passenger cars
but the constructions and rubber compounds used can
be very highly specialised in the quest for better
performance. Manufacturers of road tyres for highperformance
cars are continually introducing new
models with claims for improved performance.
Rubbers are also essential for a range of vehicle
components including seals, bushes and mountings.
Glass fibre reinforced body shells have been used in
small-volume specialist sports cars for at least 40 years,
but it is more recently that significant amounts of
plastics have been introduced into mainstream car
production. This trend is expected to continue because
of the weight saving that can be achieved and already
a number of plastic body panels are used in production
cars. DaimlerChrysler concept vehicles have mouldedin-colour
bodies of carbon fibre composite (3). Glass
fibre is still extensively used for body parts in the kit
car business but there has been a steady increase in the
use of carbon fibre for such items as wings and
dashboards.
Advanced composites are used for many critical
components of racing cars where the stiffness : weight
ratio is all important. Interestingly, there is even a
market for vanity components made from glass
reinforced plastic with a thin veneer of carbon
reinforced plastic to resemble parts on a Formula 1
car. Self-lubricating polymer bearings are reported to
be used in the design of a sports car from Carrol
Shelby (126).
9 Cycling
It does not seem that many years ago when the only
significant use of polymers on a cycle was the rubber
tyres, handlebar grips and brake blocks. Small amounts
of plastics crept in for saddles, cable covers, mud guards
and lights but it was relatively recently that main
components were anything but metal.
The LotusSport monocoque bicycle that Chris Boardman
rode to a gold medal in the Barcelona Olympics was
made of carbon fibre reinforced epoxy with some parts
incorporating a polyurethane foam core.
In 1996 a composite bicycle was designed in which
the frame, rear arm and seat pillar were moulded in
30% glass fibre reinforced polyester and it was claimed
that it could be sold for less than $100. At about the
same time a thermoplastic polyurethane bicycle
reinforced with carbon and glass fibre was launched.
Some years after the LotusSport a monocoque airfoil
road racing bike was developed to be competitive in
price with the best metal racing frames. The carbon
fibre/epoxy frame was constructed by bonding together
of three main components (188). Composites are now
making inroads into the metals market for bicycles,
including for wheels, and a recent article considers the
increasing use of carbon reinforced epoxy composites
in the production of lightweight racing machines (23).
10 Miscellaneous
The categories above have covered many of the most
popular or mainstream activities but there are hundreds
of other sports and recreational pursuits. It would
probably be impossible to find one where polymers
have not played some role.
Plastic flights for darts and synthetic fibre boards can
be found in many pubs along with plastic dominoes.
At sporting events you may find your drinks in plastics
glasses. For the sedentary there are moulded chess
pieces, dice, chips and counters; for children, toys are
almost synonymous with plastics.
13

Polymers in Sport and Leisure
For the more active, canvas tents are now a rarity with
some types also using fibre reinforced poles. The
reduction in weight, and hence convenience, is
considerable and the same is true for hikers’ rucksacks.
Gardening is not a sport but a very popular pastime which
uses vast quantities of polymers in pots, trays, netting,
sheeting, etc. Taking a leaf from the sports surface design
manual, rubber shred has been incorporated into lawns
and grass paths to reduce the effect of wear.
In-line skates use nylon in the chassis and hard
polyurethane wheels. One innovation replaces the
wheels with pneumatic rubber tyres for ‘off-road’ use.
Another design has a dual purpose with the wheels
being replacable by an ice skating blade (73).
Fishing rods are made from wound composites, and
polymers are also important for components of reels
and the line.
Going to the gymnasium to exercise rather than actually
taking part in a sport will not escape polymers as they
find application in covers, housings and other non
mechanical parts of treadmills and the like.
Sport is not only for completely able-bodied people.
The world record for the 100 m sprint by an amputee
athlete is only about 1 second behind the fastest
Olympic sprinters. This is made possible by prosthetic
limb technology involving carbon fibre composites.
There are also the supporting facilities that go with
sports. Flood lighting is essential at many sporting
events and incorporates polymers in lenses, cases, seals
and cables. Sports stadiums will use a considerable
volume of plastics in seating and even in the fabric of
the building. Last, and probably least, the security
passes at the Sydney Olympics made certain that no
athlete can be polymer-free.
11 Standards
The prime standards in sport are the rules laid down
by the international and national governing bodies.
Originally, these were almost invariably
unsophisticated and often little more than lists of
requirements, not always unambiguous. Human nature
driving athletes to find ways round the rules to achieve
better performances ensured that the rules would be
periodically revised and usually made more
complicated. The need for many changes can be directly
or indirectly attributed to polymers allowing new and
superior equipment to be produced. Increasingly, the
rules of sports have tended to more resemble the
technical specifications which cover the great majority
of domestic and industrial products. In a number of
cases, standards have been produced by the
International Standards Organization or a national
standards body such as the British Standards Institution
which cover sports equipment. Generally, these are
supplementary to the rules of the game and cover the
specification of particular items of equipment together
with necessary test methods. Clearly, rules and
standards are important to the manufacturers of sports
equipment as they have to be sure that their products
will be acceptable. Rules can be obtained from the
relevant governing body of sport and a list of current
ISO and BS standards is given in Appendix 1.
12 Conclusion
This review demonstrates both the variety of ways that
polymers have been applied in sport and also the extent
to which they have come to dominate certain areas. The
range of sports applications is so large that the review is
inevitably far from complete and the shear number of
polymeric products for sport and leisure means that much
of the technical detail has been glossed over.
It is apparent that in a considerable number of
applications polymers have long displaced traditional
materials and are now on the second, or third or more
cycle of one polymer being replaced by another. This
clearly demonstrates that sport does not stand still and
the thirst for improved performance coupled with the
desire and need to reduce costs will ensure that
developments will continue.
Despite the degree of penetration that polymers have
achieved it is possible to see areas where there is scope
for innovation including the cross fertilisation of
practices from one sport to another.
There is every sign that the demand for sport and
leisure facilities and equipment will continue and
probably grow further so that it is an attractive sector
for polymers. What cannot be seen clearly is which
products will have the greatest demand in the next
decade.
Additional References
a.1 M. Jenkins, Materials World, 2000, 8, 9, 9.
14

Polymers in Sport and Leisure
Appendix 1 International Standards
BS = British Standards Institution, EN = European Committee for Standardization,
ISO = International Standards Organization, PAS = Published Accredited Standard
Combined letters, e.g., BS EN, means the identical standard has been agreed by all the standardising bodies.
The status of the standards continues to develop and it is known that there are several draft standards in circulation,
check with the appropriate institution for the most up-to-date information.
BS 1892-1:1986
BS 1892-2.3:1986
BS 1892-2.6:1986
BS 1892- 2.7:1986
BS 1892-2.8:1986
BS 1892-2.9:1986
BS 1892-2.10:1990
BS 1892-2.11:1989
BS 3104:1970
BS 4001-1:1998
BS 4001-2:1967
BS 4423:1969
BS 4472:1988
BS 4532:1969
BS 5715:1993
BS 5883:1996
BS 5993:1995
BS 6183-1:2000
BS 6183-2:2000
BS 6183-3:2000
BS 6183-4:2001
BS 6366:1983
BS 6473:1984
BS 6635:1985
BS 6785:1986
BS 7044-1:1990
Gymnasium equipment. Specification of general requirements
Gymnasium equipment. Particular requirements. Specification for boxes,
bucks and horses
Gymnasium equipment. Particular requirements. Specification for boxing rings
Gymnasium equipment. Particular requirements. Specification for basketball and
mini-basketball equipment
Gymnasium equipment. Particular requirements. Specification for trampolines, minitrampolines
and safety harnesses (trampoline spotting rig)
Gymnasium equipment. Particular requirements. Specification for weight training
equipment
Gymnasium equipment. Particular requirements. Specification for safety requirements
for mats, mattresses and landing areas
Gymnasium equipment. Particular requirements. Specification for practice and games
netting and supporting trackways
Specification for polyamide (nylon) mountaineering ropes
Care and maintenance of underwater breathing apparatus. Recommendations for the
compressed air open circuit type
Care and maintenance of underwater breathing apparatus. Standard diving equipment
Specification for climbers’ helmets
Specification for protective skull caps for jockeys
Specification for snorkels and face masks
Specification for skateboards for recreational and sports use
Specification for surface swimming goggles
Specification for cricket balls
Protective equipment for cricketers. General requirements
Protective equipment for cricketers. Genital protectors
Protective equipment for cricketers. Leg protectors for batsmen, wicket-keepers and
fielders, and thigh, arm and chest protectors for batsmen
Protective equipment for cricketers. Gloves for batsmen
Specification for studs for rugby football boots
Specification for protective hats for horse and pony riders
Specification for saddle trees made from wood
Code of practice for solar heating systems for swimming pools
Artificial sports surfaces. Classification and general introduction
15

Polymers in Sport and Leisure
BS 7044-2.1:1989
BS 7044-2.2:1990
BS 7044-2.3:1990
BS 7044-2.4:1989
BS 7044-2.5:1991
BS 7044-4:1991
BS 7323:1990
BS 7827:1996
BS 7875:1996
BS 7928:1998
BS 7930-1:1998
BS EN 174:1997
BS EN 282:1997
BS EN 564:1997
BS EN 565:1997
BS EN 566:1997
BS EN 567:1997
BS EN 568:1997
BS EN 569:1997
BS EN 748:1996
BS EN 749:1996
BS EN 750:1996
BS EN 892:1997
BS EN 893:1999
BS EN 913:1996
BS EN 914:1996
BS EN 915:1996
BS EN 916:1996
BS EN 926-1:1996
BS EN 957-1:1997
BS EN 957-2:1997
Artificial sports surfaces. Methods of test. Methods for determination of ball/surface
interaction
Artificial sports surfaces. Methods of test. Methods for determination of person/
surface interaction
Artificial sports surfaces. Methods of test. Methods for determination of durability
Artificial sports surfaces. Methods of test. Methods for determination of
environmental resistance
Artificial sports surfaces. Methods of test. Miscellaneous
Artificial sports surfaces. Specification for surfaces for multi-sports use
Specification for sit harnesses for rock climbing
Code of practice for designing, specifying, maintaining and operating emergency
sound systems at sports venues
Specification for saddle trees made from synthetic materials
Specification for head protectors for cricketers
Specification for eye-protectors for racket sports. Squash
Personal eye protection. Ski goggles for downhill skiing
Avalanche beacons. Transmitter/receiver systems. Safety requirements and testing
Mountaineering equipment. Accessory cord. Safety requirements and test methods
Mountaineering equipment. Tape. Safety requirements and test methods
Mountaineering equipment. Slings. Safety requirements and test methods
Mountaineering equipment. Rope clamps. Safety requirements and test methods
Mountaineering equipment. Ice anchors. Safety requirements and test methods
Mountaineering equipment. Pitons. Safety requirements and test methods
Playing field equipment. Football goals. Functional and safety requirements, test methods
Playing field equipment. Handball goals. Functional and safety requirements, test methods
Playing field equipment. Hockey goals. Functional and safety requirements, test methods
Mountaineering equipment. Dynamic mountaineering ropes. Safety requirements and
test methods
Mountaineering equipment. Crampons. Safety requirements and test methods
Gymnastic equipment. General safety requirements and test methods
Gymnastic equipment. Parallel bars and combination asymmetric/parallel bars.
Functional and safety requirements, test methods
Gymnastic equipment. Asymmetric bars. Functional and safety requirements, test
methods
Gymnastic equipment. Vaulting boxes. Functional and safety requirements, test
methods
Paragliding equipment. Paragliders. Requirements and test methods for structural
strength
Stationary training equipment. General safety requirements and test methods
Stationary training equipment. Strength training equipment. Additional specific safety
requirements and test methods
16

Polymers in Sport and Leisure
BS EN 957-4:1997
BS EN 957-5:1997
BS EN 957-7:1999
BS EN 957-8:1998
BS EN 958:1997
BS EN 959:1997
BS EN 966:1996
BS EN 967:1997
BS EN 1069-1:2000
BS EN 1069-2:2000
BS EN 1077:1996
BS EN 1270:1998
BS EN 1271:1998
BS EN 1384:1997
BS EN 1385:1998
BS EN 1509:1997
BS EN 1510:1997
BS EN 1516:1999
BS EN 1517:2000
BS EN 1569:1999
BS EN 1651:1999
BS EN 1809:1998
BS EN 1969:2000
BS EN 1972:1997
BS EN 12193:1999
BS EN 12196:1997
BS EN 12197:1997
BS EN 12229:2000
BS EN 12270:1998
BS EN 12275:1998
Stationary training equipment. Strength training benches. Additional specific safety
requirements and test methods
Stationary training equipment. Pedal crank training equipment. Additional specific
safety requirements and test methods
Stationary training equipment. Rowing machines, additional specific safety
requirements and test methods
Stationary training equipment. Steppers, stairclimbers and climbers. Additional
specific safety requirements and test methods
Mountaineering equipment. Energy absorbing systems for use in klettersteig (via
ferrata) climbing. Safety requirements and test methods
Mountaineering equipment. Rock anchors. Safety requirements and test methods
Specification for helmets for airborne sports
Head protectors for ice hockey players
Water slides over 2 m height. Safety requirements and test methods
Water slides over 2 m height. Instructions
Specification for helmets for alpine skiers
Playing field equipment. Basketball equipment. Functional and safety requirements,
test methods
Playing field equipment. Volleyball equipment. Functional and safety requirement,
test methods
Specification for helmets for equestrian activities
Helmets for canoeing and whitewater sports
Playing field equipment. Badminton equipment. Functional and safety requirements,
test methods
Playing field equipment. Tennis equipment. Functional and safety requirements,
test methods
Surfaces for sports areas. Determination of resistance to indentation
Surfaces for sports areas. Determination of resistance to impact
Surfaces for sports areas. Determination of the behaviour under a rolling load
Paragliding equipment. Harnesses. Safety requirements and strength tests
Diving accessories. Buoyancy compensators. Functional and safety requirements,
test methods
Surfaces for sports areas. Determination of thickness of synthetic sports surfaces
Diving accessories. Snorkels. Safety requirements and test methods
Light and lighting. Sports lighting
Gymnastics equipment. Horses and bucks. Functional and safety requirements,
test methods
Gymnastic equipment. Horizontal bars. Safety requirements and test methods
Surfaces for sports areas. Procedure for the preparation of synthetic turf and
textile pieces
Mountaineering equipment. Chocks. Safety requirements and test methods
Mountaineering equipment. Connectors. Safety requirements and test methods
17

Polymers in Sport and Leisure
BS EN 12276:1999
BS EN 12277:1998
BS EN 12278:1998
BS EN 12346:1999
BS EN 12432:1998
BS EN 12491:2001
BS EN 12492:2000
BS EN 12572:1999
BS EN 12628:1999
BS EN 12655:1998
BS EN 13089:1999
BS EN 13158:2000
BS EN 13178:2000
BS EN 13277-1:2000
BS EN 13277-2:2000
BS EN 13277-3:2000
BS EN 13319:2000
BS EN 13451-1:2001
BS EN 13451-2:2001
BS EN 13451-3:2001
BS EN 13451-4:2001
BS EN 13451-5:2001
BS EN 13451-6:2001
BS EN 13451-7:2001
BS EN 13451-8:2001
BS EN 13613:2001
BS ISO 9462:1993
Mountaineering equipment. Frictional anchors. Safety requirements and test methods
Mountaineering equipment. Harnesses. Safety requirements and test methods
Mountaineering equipment. Pulleys. Safety requirements and test methods
Gymnastic equipment. Wall bars, lattice ladders and climbing frames. Safety
requirements and test methods
Gymnastic equipment. Balancing beams. Functional and safety requirements, test
methods
Paragliding equipment. Emergency parachutes. Safety requirements and test methods
Mountaineering equipment. Helmets for mountaineers. Safety requirements and test
methods
Artificial climbing structures. Protection points, stability requirements and test
methods
Diving accessories. Combined buoyancy and rescue devices. Functional and safety
requirements, test methods
Gymnastic equipment. Hanging rings. Functional and safety requirements, test
methods
Mountaineering equipment. Ice tools. Safety requirements and test methods
Protective clothing. Protective jackets, body and shoulder protectors for horse riders.
Requirements and test methods
Personal eye protection. Eye protectors for snowmobile users
Protective equipment for martial arts. General requirements and test methods
Protective equipment for martial arts. Additional requirements and test methods for
instep protectors, shin protectors and forearm protectors
Protective equipment for martial arts. Additional requirements and test methods for
trunk protectors
Diving accessories. Depth gauges and combined depth and time measuring devices.
Functional and safety requirements, test methods
Swimming pool equipment. General safety requirements and test methods
Swimming pool equipment. Additional specific safety requirements and test methods
for ladders, stepladders and handle bends
Swimming pool equipment. Additional specific safety requirements and test methods
for pool fittings for water treatment purposes
Swimming pool equipment. Additional specific safety requirements and test methods
for starting platforms
Swimming pool equipment. Additional specific safety requirements and test methods
for lane lines
Swimming pool equipment. Additional specific safety requirements and test methods
for turning boards
Swimming pool equipment. Additional specific safety requirements and test methods
for water polo goals
Swimming pool equipment. Additional specific safety requirements and test methods
for leisure water features
Roller sports equipment. Skateboards. Safety requirements and test methods
Alpine ski-bindings. Safety requirements and test methods
18

Polymers in Sport and Leisure
BS ISO 9838:1991
BS ISO 10045:1991
BS ISO 10228:1991
BS ISO 11088:1993
BS ISO 11416:1995
ISO 5355:1997
ISO 5902:1980
ISO 6003:1984
ISO 6004:1991
ISO 6005:1991
ISO 6265:1992
ISO 6266:1980
ISO 6267:1980
ISO 6289:1985
ISO 6959:1983
ISO 6960:1983
ISO 7138:1984
ISO 7139:1984
ISO 7140:1985
ISO 7331:1990
ISO 7794:1991
ISO 7795:1994
ISO 7796:1985
ISO 7797:1985
ISO 7798:1984
ISO 8061:1991
ISO 8364:1999
ISO 8614:1997
ISO 8783:1999
ISO 9119:1990
ISO 9465:1991
ISO 9523:1990
ISO 10256:1996
ISO 10257:1996
Alpine ski-bindings. Test soles for ski-binding tests
Alpine skis. Binding mounting area. Requirements for test screws
Cross-country skis. Binding mounting area. Requirements for test screws
Assembly, adjustment and inspection of an alpine ski-binding-boot (S-B-B) system
Tennis rackets. Racket components and physical parameters
Alpine ski-boots — Safety requirements and test methods
Alpine skis — Determination of the elastic properties
Alpine skis — Determination of mass and polar moment of inertia — Laboratory
measurement method
Alpine skis — Ski binding screws — Requirements
Alpine skis — Ski binding screws — Test methods
Alpine skis — Determination of deformation load and breaking load
Alpine skis — Determination of fatigue indexes — Cyclic loading test
Alpine skis — Measurement of bending vibrations
Skis — Terms and definitions
ISO 6289:1985/ Amd 1:1993
ISO 6289:1985/ Amd 2:1997
Cross-country ski boots with three pin holes — Dimensions, interface and design
Cross-country ski bindings with three pins — Dimensions, interface and design
Cross-country skis — Determination of mass and location of balance point
Cross-country skis — Determination of elastic properties
Cross-country skis — Determination of dynamic performance — Laboratory
measurement method
Ski-poles for alpine skiing — Safety requirements and test methods
Cross-country skis — Ski-binding screws — Requirements
Cross-country skis — Ski-binding screws — Test methods
Skis — Geometry — Measuring conditions
Cross-country skis — Determination of breaking load and deflection at break with
quasistatic load
Cross-country skis — Determination of fatigue indexes — Cyclic loading test
Alpine ski-bindings — Selection of release torque values
Alpine skis and bindings — Binding mounting area — Requirements and test methods
Ski bindings — Vocabulary
Alpine skis — Guidelines for conducting slope performance tests
Cross-country skis — Binding mounting area — Requirements and test methods
Alpine ski-bindings — Lateral release under impact loading — Test method
Touring ski-boots for adults — Interface with ski-binding
Protective helmets for ice hockey players
Face protectors and visors for ice hockey players
19

Polymers in Sport and Leisure
ISO 10958-1:1998
ISO 10958-2:1999
ISO 11087:1997
ISO 11088:1998
ISO 11110:1997
ISO 11497:1998
ISO 11634:1996
ISO 13992:1997
ISO 14359:1997
ISO 14790:1997
ISO 378:1980
ISO 379:1980
Snowboards — Binding mounting area — Part 1: Requirements and test methods for
snowboards without inserts
Snowboards — Binding mounting area — Part 2: Requirements and test methods for
snowboards with inserts
Alpine ski-bindings — Retention devices — Safety requirements and test methods
Assembly, adjustment and inspection of an alpine ski/binding/boot (S-B-B) system
Winter-sports equipment — Test devices for the setting of the functional unit ski/boot/
binding — Requirements and tests
Telemark skis and bindings — Binding mounting area — Requirements and test
methods
Snowboard-boots — Interface with ski-binding
Alpine touring ski-bindings — Safety requirements and test methods
Winter-sports equipment — Marking of parts made of polymer materials
Snowboard plate-bindings without a release mechanism — Safety requirements and
test methods
Gymnastic equipment — Parallel bars
Gymnastic equipment — Horizontal bar
ISO 5903:1981 Gymnastic equipment — Landing mats and surfaces for floor exercises —
Determination of hardness and impact damping
ISO 5904:1981 Gymnastic equipment — Landing mats and surfaces for floor exercises —
Determination of resistance to slipping
ISO 5905:1980
ISO 5906:1980
ISO 5907:1980
ISO 11416:1995
ISO 14460:1999
PAS 008:1993
PAS 015:1999
PAS 30:1998
PAS 36-1:2000
PAS 36-2:2000
Gymnastic equipment — Landing mats (2,000 mm x 1,250 mm x 60 mm)
Gymnastic equipment — Surfaces for floor exercices — Mats
Gymnastic equipment — Surfaces for floor exercises — Boards
Tennis rackets — Racket components and physical parameters
Protective clothing for automobile racing drivers — Protection against heat and flame
— Performance requirements and test methods
Cricketers’ helmets
Helmets for equestrian use
Outdoor recreational multi-sports equipment. Specification
Goals for small-sided football. Specification for metal goals
Goals for small-sided football. Specification for plastics goals
20

References and Abstracts
References from the Rapra Abstracts Database
Item 1
Plastics News(USA)
12, No.51, 19th Feb.2001, p.13
ACCU-FORM’S KAYAKS TAKE ON RAPID
GROWTH (SHORT ARTICLE)
After entering the thermoformed kayak business, Accu-
Form Polymers plans to expand the size of its North
Carolina campus. The expansion will include two new
vacuum forming stations to make kayaks and other
products. The need for space partly stems from Accu-
Form’s introduction of thermoformed ABS kayaks. The
boats are stiffer and lighter than other plastic kayaks,
which generally are rotomoulded.
USA
Accession no.807018
Item 2
Popular Plastics and Packaging
46, No.2, Feb.2001, p.20
EBONITE ENHANCES THEIR SEE-THROUGH
BUDWEISER BOWLING BALL WITH
REACTINT COLOURANTS FROM MILLIKEN
CHEMICAL
Ebonite International manufactures and sells a full line of
clear bowling balls called EverClear. The company has
signed a licensing agreement with Anheuser-Busch to
produce the clear Budweiser Ball, which contains a replica
of a Bud bottle coloured with Milliken Chemical’s Reactint
encased in clear polyester. EverClear balls combine
Ebonite’s open-pour, cast elastomer urethane and polyester
technology with Reactint polymeric colourant. Ebonite uses
a mixture of Reactint and polyester resin in the Budweiser
Ball to replicate the beer bottle at the ball’s core.
USA
Accession no.806950
Item 3
Plastics News(USA)
12, No.46, 15th Jan.2001, p.4
DAIMLERCHRYSLER TACKLES MOULDED-
IN-COLOUR BODIES
Two of DaimlerChrysler’s three concept vehicles debuting
at the North American International Auto Show feature
composite, moulded-in-colour bodies. Both the Jeep
Willys and Chrysler Crossfire concept vehicles have
carbon fibre bodies over an aluminium frame that could
be produced through injection moulding.
USA
Accession no.806797
Item 4
Composites Technology
7, No.1, Jan./Feb.2001, p.45-8
BOARDS IN THE EXTREME
Dawson D
New technologies for the production of surf boards, wake
boards, and kite boards are examined. The use of
composite materials for these high performance boards
is discussed as the industry moves from personalised
board production providing varying degrees of durability
and performance, to highly engineered composite
structures formed under compression and processed in
controlled, heated autoclaves. Examples are given of the
use of composite materials and manufacturing techniques
by various board producers.
USA
Accession no.804764
Item 5
Composites Technology
6, No.6, Nov./Dec.2000, p.40-3
PERSONAL WATERCRAFT MOLDERS VALUE
FRP DURABILITY AND STRENGTH
Stewart R
This article discusses the use of composites in the
manufacture of personal jet-ski water craft. Section
headings include: personal water-craft sales decline in
maturing market, compression-moulding cycle is
streamlined for efficiency, hulls of four Kawasaka models
are layed up by hand, Yamaka hull design requires testing
before tooling, lighter replacement hulls in aftermarket,
Polaris models are layed up or sprayed up, and
Bombardier moulders spray-up parts just-in-time.
ADVANCED COMPOSITE ENGINEERING;
ASHLAND SPECIALTY CHEMICAL CO.; BASF
CORP.; BOMBARDIER RECREATIONAL
PRODUCTS; CORE MATERIALS CORP.;
KAWASAKI MOTORS CORP.USA; LORD CORP.;
POLARIS INDUSTRIES INC.; PERSONAL
WATERCRAFT INDUSTRY ASSOCIATION;
YAMAHA MOTOR CORP.; US,NATIONAL MARINE
MANUFACTURERS’ ASSOCIATION; ARCTIC CAT
INC.; PREMIX INC.
USA
Accession no.804401
Item 6
Composites International
No.42, Nov./Dec.2000, p.51-8
English; French
PERSONAL PROTECTIVE EQUIPMENT:
COMPOSITES CAN TAKE THE KNOCKS
Composites provide head-to-foot protection for firefighters,
the military and motorcyclists. In the last ten
years, composites have become the prime choice for
© Copyright 2001Rapra Technology Limited 21

References and Abstracts
shielding and bullet-proofing applications for both
military and law-and-order missions. Aramid fibre and
high-strength PE fibre in the form of yarn, mat or nonwoven
fabric are the reinforcements most used, with
thermoset and thermoplastic matrices. Motorcycle
helmets are usually reinforced with aramid, PE and carbon
fibres to obtain a satisfactory compromise of mechanical
properties in the various parts of the helmet. Gloves, boots,
body armour, back protectors and air cylinders all make
use of composites.
EUROPE-GENERAL
Accession no.802202
Item 7
Composites International
No.42, Nov./Dec.2000, p.41-5
English; French
SNOWBOARD: ALL-COMPOSITES
The snowboard is a piece of equipment that is 100%
composites. Rossignol has chosen the wet lay-up
process, which turns out 1,400 to 1,600 boards per day.
The Triple Hybrid Core developed by the company is
topped off by a double torsion box. The use of carbon
fibre and Kevlar/Aramid greatly contributes to reducing
weight. At the centre of the board, a section of
Microcell honeycomb structure is sandwiched with
wood and Isocore, a glass fibre-reinforced PU. New
snowboard bindings manufactured by Verton RF may
be fastened quickly. They are designed in long glass
fibre-reinforced nylon 66 composite supplied by LNP
Engineering Plastics.
ROSSIGNOL
EUROPEAN COMMUNITY; EUROPEAN UNION; FRANCE;
WESTERN EUROPE
Accession no.802200
Item 8
Composites International
No.42, Nov./Dec.2000, p.33-9
English; French
MOUNTAIN AND WINTER SPORTS
APPLICATIONS ARE A NATURAL FOR
COMPOSITE MATERIALS
This article provides an overview of the main areas of
application for composites in winter sports equipment.
For the last four decades, the French manufacturer
Rossignol has been devoting more than 3% of its turnover
per year to R&D in new products. For ski and snowboard
manufacture, a textile product, Rovinap, is used for
structural reinforcement. It basically consists of layers of
glass fibre mats stacked and stitched together. Epoxy is
used as a laminating agent for the glass-fibre
reinforcement and to bond all of the ski’s constituent
components in a wet process. PU or Microcell foam is
used for foam core downhill skis. Isocore is a glass fibre
reinforced PU foam used for ski cores. Kevlar K49 is an
aramid fibre used in the industry to reduce ski weight
without sacrificing strength.
ROSSIGNOL
EUROPEAN COMMUNITY; EUROPEAN UNION; FRANCE;
WESTERN EUROPE
Accession no.802198
Item 9
Advanced Materials & Composites News
23, No.2, 15th Jan.2001, p.7-8
PHOENIXX GOLF UNVEILS THREE NEW
THERMO-COMPOSITE WOOD SHAFTS AT 2001
PGA MERCHANDISE SHOW
Phoenixx Golf has unveiled three new additions to its
golf shaft product line, the Thermo-Pro Tour, Thermo-
Lite Tour and Thermo-Force BT shafts for woods. All
Phoenixx golf shafts incorporate the viscoelastic dynamic
stiffening inherent in thermoplastic composite materials
which provides a more stable club face at impact that
yields tighter ball dispersion and superior shot accuracy.
High technology PPS is reinforced with carbon fibres in
the shaft.
PHOENIXX GOLF
USA
Accession no.802051
Item 10
Advanced Materials & Composites News
23, No.2, 15th Jan.2001, p.3-4
ALDILA LAUNCHES HM-40 TOUR GOLD
SERIES OF GOLF SHAFTS
Aldila, golf’s leading designer and manufacturer of high
performance graphite fibre composite wood and iron
shafts, has announced the re-introduction of its original
HM-40 Tour Gold wood shaft and the introduction of two
new HM-40 models. The HM-40 Tour Gold is the alltime
best selling high-performance graphite fibre shaft
for better players. The two new models offer the same
performance attributes of the original shaft, but in today’s
popular lighter weights.
ALDILA INC.
USA
Accession no.802047
Item 11
Antec 2000.Conference proceedings.
Orlando, Fl., 7th-11th May, 2000, paper 464
MODULUS PROPERTIES OF TRIAXIALLY
BRAIDED CARBON FIBER/EPOXY SPARS
Petrie S; Veilleux J M
Massachusetts,University; Composite Engineering Inc.
(SPE)
A computer program was created to predict the mechanical
properties of carbon fibre-reinforced epoxy resin masts for
sailing boats. Rectangular section masts were produced,
22 © Copyright 2001 Rapra Technology Limited

References and Abstracts
from which flat coupons were cut for flexural and tensile
testing. The computer predictions were reasonably accurate
for Young’s modulus, whilst the experimental tensile
modulus values were approximately 10% higher than
predicted, and the experimental flexural modulus was
approximately 30% lower than predicted. 7 refs.
USA
Accession no.801994
Item 12
Kunststoffe Plast Europe
90, No.12, Dec. 2000, p.20-2. (Translated from
Kunststoffe 90 (2000), 12, p.58-62)
RIGHT SOFTWARE BRINGS SUCCESS
Steck R
The advantages are described of a standardised computer
aided design data structure in the successful development
of an electric golf caddy. Thermoplastik Erich Mueller
GmbH uses the Thermoshape fusible-core process and
innovative continuous-strand-reinforced thermoplastic
carbon fibre to produce the caddy, which was designed
using CAD techniques. The company claims that by using
Pro/Engineer, it is employing a common system that
makes a wide range of potential partner companies
accessible to it.
THERMOPLASTIK ERICH MUELLER GMBH
EUROPEAN COMMUNITY; EUROPEAN UNION; GERMANY;
WESTERN EUROPE
Accession no.799411
Item 13
Elastomers Times
No.24, 2000, p.3
ENGAGE MAKES A SPLASH WITH POOL TOYS
FROM NOMACO
Funnoodles from Nomaco are tubular foam water toys.
The brightly coloured, 1.8m-long toys are made of LDPE
blended with Engage polyolefin elastomer. Engage acts
as a modifier that enhances the flexibility of the blended
polymer product. The polyolefin elastomer is more stable
and colourable than competitive products, and exhibits
great tensile strength and good processability in the foam
extrusion process. Engage also enhances the welding
strength and weatherability of the toys.
NOMACO INC.; DUPONT DOW ELASTOMERS SA
USA
Accession no.799007
Item 14
Elastomers Times
No.24, 2000, p.2
40 YEARS EXPERIENCE PROVES INFLATABLE
BOATS LAST LONGER WITH HYPALON
The most important factor in an inflatable boat is the type
of material used to construct the air chambers. Fabrics
coated with DuPont Dow Hypalon chlorosulphonated PE
or PVC predominate. Hypalon coated onto polyester or
nylon fabric with an inner coating of Neoprene is the most
reliable and durable inflatable boat fabric available and
can last for more than a decade even in the harshest
environment, claims Severn Boats, the marketing and
sales division of Severn Marine D.O.O.
DUPONT DOW; SEVERN MARINE D.O.O.
BOSNIA-HERCEGOVINA
Accession no.799004
Item 15
Elastomers Times
No.24, 2000, p.1/4
ENGAGE ADDS COMFORT TO SPORTING
COMPONENTS
Engage polyolefin elastomer is a key ingredient in
snowboard straps, kayak seats and spa pillows made by
Finproject, an Italian footwear and sporting goods
company. Finproject has developed injection-moulded
foams incorporating Engage that take advantage of the
wide formulation latitude made possible by the expansive
choice of crystallinity and molecular weights within the
product line.
DUPONT DOW ELASTOMERS; FINPROJECT SPA
EUROPEAN COMMUNITY; EUROPEAN UNION; ITALY;
WESTERN EUROPE
Accession no.799003
Item 16
Fire Retardancy of Polymers.
Cambridge, UK, Royal Society of Chemistry, 1998,
54F, p.395-417
FLAME RETARDANT COMPOSITES, A
REVIEW: POTENTIAL FOR USE OF
INTUMESCENTS
Kandola B K; Horrocks A R
Bolton Institute
Edited by: Le Bras M; Camino G; Bourbigot S;
Delobel R
(Ecole Nationale Superieure de Chimie de Lille;
Torino,Universita; CREPIM)
The major advantages of composites include low density,
high specific strength and stiffness, good corrosion
resistance and improved fatigue properties. The ability
to tailor properties of composites makes them the only
materials capable of transforming new design concepts
into reality. Their major applications are in load-bearing
structures in aircraft, automobiles, ships, pipelines, storage
tanks, sports equipment, etc. as bulkhead, framework and
panel components. However, with the organic nature of
both the matrix binder and in some cases, fibres, nonflammable
materials may be replaced with materials
which may be thermoplastic, will support combustion and
evolve large quantities of smoke while burning. Even if
inorganic fibres like E-glass are the reinforcing structures,
composite fire resistance will be determined by that of
© Copyright 2001Rapra Technology Limited 23

References and Abstracts
the organic matrix and the low melting point of these
fibres. Hence, a major current concern is the evaluation
and improvement of the heat and flame resistance of these
structures and, more specifically, the need to investigate
the potential for use of intumescents. To understand the
performance of composite structures in fire and intensive
heat situations, it is necessary to examine the nature and
chemistry of their constituents. 52 refs.
EUROPEAN COMMUNITY; EUROPEAN UNION; UK;
WESTERN EUROPE
Accession no.795762
Item 17
European Plastics News
27, No.11, Nov.2000, p.53
POM GETS INTO GEAR
Warmington A
Automotive applications account for 46% of polyacetal
by end-use, with electric/electronic at 11%. Other
applications include industrial equipment, appliances,
consumer goods and sports equipment. Only four
companies currently produce POM in Europe: Ticona,
DuPont, BASF and Zaklady Azotowe. Rhodia and DSM
are also present as distributors and imported materials
have a stronger market presence in POM than in most
engineering polymers. Ticona is to increase capacity at
its main site in Kelsterbach, Germany, taking capacity
from 77,000 t/y to 100,000 t/y by the end of 2002.
Producers managed to push through a series of price
increases over the past 15 months.
WESTERN EUROPE-GENERAL
Accession no.795158
Item 18
Advanced Materials & Composites News
22, No.22, 20th Nov.2000, p.1-2
SAN DIEGO FIRM REDUCES BROKEN
BASEBALL BATS AND PLAYER INJURIES AS
WELL
Blackwrap Sports Inc.
Blackwrap Sports Inc. are reported to be using advanced
composites in the form of a safety tape, called Shocgard,
to strengthen the handles of baseball bats, allowing the
bats to flex to 5 in. without breaking. The tape is made
from a composite of graphite and Kevlar fibres and is
used on both wooden and aluminium bats. The benefits
of this tape to the sport of baseball are indicated.
USA
Accession no.794695
Item 19
Polyurethanes Conference 2000. Conference
proceedings.
Boston, Ma., 8th-11th Oct.2000, p.117-126
NEW TECHNOLOGY FOR VISCOELASTIC FOAM
Hager S; Skorpenske R; Triouleyer S; Joulak F
Bayer Corp.
(American Plastics Council,Alliance for the
Polyurethanes Industry)
The production and use of slow recovery viscoelastic PU
foams have increased rapidly. Their unique performance
characteristics, including shape conformance, vibration
and sound damping, and energy and shock absorption,
make these the foams of choice for many diverse
applications such as pillows, mattress toppers, automotive
trim, sports and medical equipment, and ergonomic
cushions and pads. These diverse applications require a
wide range of foam grades with tailored performance
properties. New polyol and formulating technology is
being developed to meet the increased demands for
improved processing, wider grade latitude and improved
performance properties of viscoelastic foam. The results
of systematic experimental design studies conducted in
the laboratory to help develop this technology are
reported. A key advance is the development of polyol
compositions that enable the production of high quality,
soft viscoelastic foams at 100 index and above. This
eliminates processing inconsistencies associated with low
index foaming, and yields foams with superior
performance characteristics such as improved
compressions set, reduced discoloration and finer cell
structure with improved feel. Formulating routes to
optimise key foam performance features such as low
resilience, slow but complete recovery, maintenance of
slow recovery characteristics with use, reduced
temperature sensitivity, good airflow, and good strength
properties are also identified. The results of machine foam
studies are presented along with additional foam
performance results. 1 ref.
EUROPEAN COMMUNITY; EUROPEAN UNION; FRANCE;
USA; WESTERN EUROPE
Accession no.794276
Item 20
158th. ACS Rubber Division Meeting - Fall 2000.
Conference preprints.
Cincinnati, Oh., 17th.-19th. Oct. 2000, paper 21
POLYETHER BLOCK AMIDE RESINS:
BRIDGING THE GAP BETWEEN
THERMOPLASTICS AND RUBBERS
Dennis G M; O’Brien G
ATOFINA Chemicals Inc.
(ACS,Rubber Div.)
The Pebax family of polyether block amide resins is
discussed with reference to its performance characteristics
and typical applications. The PEBA structure combines a
regular linear chain of rigid polyamide segments
interspaced with flexible polyether segments. The
compatibility between this two-phase crystalline and
amorphous structure creates a blend of properties which
are said to bridge the gap between thermoplastics and
rubbers. Dynamic property testing, flexibility and impact
24 © Copyright 2001 Rapra Technology Limited

References and Abstracts
performance vs. temperature, elastic performance,
processing, and speciality grades are examined. End use
applications include sporting goods, belting, breathable
structures, polymer modification, and a TPU processing
aid.
USA
Accession no.794130
Item 21
Machine Design
72, No.20, 19th Oct.2000, p.46
DUAL BLADE SWIM FINS HAVE DIVERS
KICKING WITH EASE
The features of ScubaPro’s Twin Jet fins, which have dualblades
made from tough, flexible Monprene thermoplastic
elastomer, are described. The blades convert more of the
diver’s kicking energy into forward motion than
conventional paddle-shaped swim fins. A special diving
fin (the Twin Jet Graphite), which is moulded from a
softer, more flexible Monprene formulation, which is
lighter in water than the standard Twin Jet, is also available
from the company.
SCUBAPRO
USA
Accession no.793621
Item 22
SAMPE Journal
35, No.2, March/April 1999, p.52-7
HURRICANE: THE 1998 UNIVERSITY OF
HAWAII HUMAN POWERED VEHICLE
Ghasemi Nejhad M N; Yuen R D; Veomett J K; Uyema
M N; Saiki L S; Bernal J S; Ng R K H; Young S T M
Hawaii,University
A description is given of the design, manufacture and
testing of the frame and removable, aerodynamic fairing
used in Hawaii University’s semi-recumbent, single-rider
Human Powered Vehicle. Both the frame and fairing are
made from advanced composites and computer aided
design was utilised in the design of the vehicle.
USA
Accession no.793615
Item 23
High Performance Plastics
Oct.2000, p.6-7
TREND TOWARD LIGHTWEIGHT CARBON
BIKES IS A WINNER FOR COMPOSITES AS
WELL AS RIDERS
This article focuses on the increasing use of carbonreinforced/
epoxy composites in the production of
lightweight racing bicycles, and looks in particular at those
produced by Trek Inc. of the USA, the company which
supplied the US Postal Service professional racing team
in the 1999 and 2000 Tour de France events.
TREK INC.; RADIUS ENGINEERING INC.
EUROPEAN COMMUNITY; EUROPEAN UNION; FRANCE;
USA; WESTERN EUROPE
Accession no.792032
Item 24
Plastics News International
Oct.2000, p.6/8
PLASTICS WIN AND LOSE AT THE OLYMPICS
Kettle M
This article highlights several “winning” plastics
applications in the Sydney Olympics infrastructure, such
as vinyl flooring in the arrivals hall of Sydney
International Airport, the roofing of the huge games
stadium, the roofing of the equestrian centre, mattresses
and bed-heads for the athletes, a sports surface at the tennis
centre, and seating in the SuperDome. It is also reported
that the organisers adopted a PVC-minimisation policy,
instigated by Greenpeace.
ARMSTRONG WORLD INDUSTRIES AUSTRALIA;
GE PLASTICS; CADILLAC PLASTICS;
LASERLITE AUSTRALIA; BAYER; VISCOUNT
PLASTICS; BIS SHRAPNEL; AV SYNTEC;
AUSTRALIA,VINYL COUNCIL; GREENPEACE
INTERNATIONAL; MONTELL
AUSTRALIA
Accession no.792013
Item 25
Plastics News(USA)
12, No.31, 2nd Oct.2000, p.9
PLASTIC ENTERS OLYMPICS IN ITS OWN
WAY
Tilley K
This article highlights several ways in which plastics were
used in the Sydney Olympics this year, such as the stadium
running track surface, the singlets worn by international
wrestlers, security passes, gymnasts’ floor mats, swimsuits,
and a tennis surface. It is also reported that the
organisers adopted a PVC-minimisation policy, instigated
by Greenpeace.
DOW CHEMICAL CO.; WESTPAC BANKING
CORP.; GREENPEACE
AUSTRALIA
Accession no.791512
Item 26
Rubber India
52, No.6, June 2000, p.11-5
RUBBER INFLATABLES FOR USE IN
THERAPEUTICS AND LIFE SAVING DEVICES
Banerjee B
Bengal Waterproof Ltd.
Rubber inflatables with or without reinforcement have
been designed and developed for use as medical
© Copyright 2001Rapra Technology Limited 25

References and Abstracts
equipment for the management of various ailments. Some
of the devices are successfully used in the treatment of
serious chronic diseases. The most sophisticated and
important implementation area of rubber inflatables is life
saving and safety equipment technology, used by the
Indian Defence forces for army, navy and airforce
operations. A few of the selected items made from all
rubber sheeting/rubberised textile using natural or
synthetic substrates effectively instrumental in social
service sector by way of medical aid and for defence
operational requirement are described.
INDIA
Accession no.789890
Item 27
Plastics News(USA)
12,No.32, 9th Oct. 2000, p.10
RACETRACK TESTS FOAM TO CUSHION
CRASHES
Pryweller J
Cellofoam North America Inc. has provided Lowe’s
Motor Speedway in Concorde, N.C., with a crash barrier
system for its racetrack. The system comprises expanded
foam blocks with an outer shell of polystyrene. The outer
wrapping prevents the expanded polystyrene from
exploding on impact. Tests are currently being conducted
at the racetrack involving the dropping of a 5000 pound
Cadillac on to the foam blocks. The barrier system will
prevent serious or fatal injury to the stock car drivers.
NASCAR; LOWE’S MOTOR SPEEDWAY;
CELLOFOAM NORTH AMERICA INC.
USA
Accession no.789001
Item 28
European Plastics News
27, No.9, Oct.2000, p.37
DYNAMIC DESIGN
Reade L
DuPont’s Imagineering competition challenges young
designers across Europe to make innovative use of plastic
materials. The theme for this year’s event was “Personal
Safety and Care” and included sport and leisure
applications. The winning entry in the UK arm of the
competition is a modified snowboard, which makes it
easier for the rider to change position on the board. A
sliding unit, a so-called dynamic binding system, was
devised to fit between the board and the binding. A toggle
clamp fixes the binding into place. The part was designed
in Zytel, a toughened, glass-reinforced nylon 66. Other
entrants in the competition included a toboggan, flippers,
a penknife/emergency tool and a rucksack with retractable
feet that transforms it into a seat.
DUPONT CO.
EUROPEAN COMMUNITY; EUROPEAN UNION; UK;
WESTERN EUROPE
Accession no.788051
Item 29
Asian Plastics News
July/Aug.2000, p.15
GAS-ASSIST TO THE FORE
A new golf-cart roof is one of the largest parts ever to be
produced by gas-assisted injection moulding. This article
takes a close look at its development and production, and
the benefits of producing this part in this way.
CINPRES; CLUB CAR; THOMSON PLASTICS;
MONTELL; MOLDFLOW; MILACRON
EUROPEAN COMMUNITY; EUROPEAN UNION; UK; USA;
WESTERN EUROPE
Accession no.787902
Item 30
Plastics News(USA)
12, No.21, 24th July 2000, p.4
COMPOSITE BIKES BECOMING TOUR DE
FORCE
Miel R
As US bicycle racer Lance Armstrong closed in on his
second Tour de France victory, the company that makes
his composite-frame bicycle, Trek Bicycle Corp. of
Wisconsin, forecast a huge increase in its composite bike
sales. This article discusses the use of composites in racing
bikes and looks at some of the company’s range.
TREK BICYCLE CORP.; LOOK CYCLE
INTERNATIONAL; HEXCEL; CANNONDALE
CORP.; KESTREL BICYCLE CORP.
EUROPEAN COMMUNITY; EUROPEAN UNION; FRANCE;
USA; WESTERN EUROPE
Accession no.786550
Item 31
Plastics News(USA)
12, No.27, 4th Sept.2000, p.1/17
CHAIRMAN OF THE BOARD
Renstrom R
Clark Foam in Southern California manufactures the most
rigid PU foam surfboard blanks in the world. The
company combines polyester-type polyol and isocyanate
in a reactor vessel. Technicians hand-pour a selected PU
formulation into a concrete mould with a mould release
agent. The mixed chemicals react to form PU and carbon
dioxide gas bubbles that expand and create the foam. The
process produces a semi-finished blank of uniformly white
foam that retains its clean look. Clark Foam sells standard
densities in various sizes and thicknesses. The company
has not raised its prices in six years. Alternative methods
of producing surfboards are outlined.
CLARK FOAM
USA
Accession no.785056
Item 32
Macplas International
26 © Copyright 2001 Rapra Technology Limited

References and Abstracts
No.9, Aug.2000, p.88
SNOW SCOOTER
A snowscooter, manufactured by Bombardier-Nordtrac
of Finland is equipped with hoods made of Bayflex 110
glass fibre reinforced polyurethane from Bayer. The
suitability of the material for this particular application
is briefly described, and centres on its low temperature
properties and high impact strength. In addition, the part
can be manufactured by the RIM process, which gives
significant economic advantages.
BOMBARDIER-NORDTRAC; BAYER AG
EUROPEAN UNION; FINLAND; SCANDINAVIA; WESTERN
EUROPE
Accession no.784642
Item 33
Macplas International
No.9, Aug.2000, p.82-3
COATINGS AND ADHESIVES
Suprasec 2386 has been developed by Huntsman
Polyurethanes as part of its MDI-based binders range.
The product is suitable for use in a variety of applications
from electronics and telecommunications to food
packaging and sports. As a coating for the electronics and
telecommunications industries, Suprasec 2386 has been
formulated to provide a new modified pure MDI as a direct
replacement for pure MDI in wire coating applications.
Its advantages in this application, food packaging
adhesives, spray coating for concrete and anti-corrosion
coatings, sports surfaces, and one-component, solvent free
laminated panel adhesive for applications in cold rooms,
warehouses, and computer isolation rooms, are described,
with particular reference to storage stability and low
temperature properties.
HUNTSMAN POLYURETHANES
USA
Accession no.784635
Item 34
Kunststoffe Plast Europe
90, No.5, May 2000, p.21-2; p.76-7
English; German
THREE WEEKS UNTIL THE START
Hell M
Creaholic SA
Victory in the race through the Australian bush was the
finale to the extraordinary development of a solar-powered
electric bike. Less than three weeks were available for
the production of the key parts of the bike. With the aid
of stereolithography, however, the challenge was
successfully met. Details are given.
SWITZERLAND; WESTERN EUROPE
Accession no.784143
Item 35
Materials World
8, No.6, June 2000, p.11-3
GOOD VIBRATIONS - MATERIAL SWING INTO
ACTION
Jenkins M
Materials technology has played a vital, lately
controversial role in the history of tennis, especially during
the modern era with the advent of powerful composite
rackets. For the average player, modern rackets offer a
range of benefits, such as oversized sweat spots and
efficient vibration damping, that make the game hugely
more attractive. In fact, new technology could lead to the
effective elimination of vibration. In the 1970s aluminium
frames offering increased stiffness and reduced mass
enjoyed a brief period of success However, towards the
end of the decade new continuous fibre composites were
introduced that rapidly superseded aluminium as a frame
material. The first of these composite materials consisted
of glass fibres held within a polyester resin matrix, and
later rackets went on to encompass various grades of
carbon fibres within epoxy resin matrices. The latest
developments are reviewed. 3 refs.
EUROPEAN COMMUNITY; EUROPEAN UNION; UK;
WESTERN EUROPE; WORLD
Accession no.784125
Item 36
Journal of Reinforced Plastics & Composites
19, No.11, 2000, p.848-62
DAMPING OF MOISTURE-ABSORBED
COMPOSITE RACKETS
Chou P J C; Ding D; Chen W-H
Feng Chia,University; Taiwan,Industrial Technology
Research Institute
The influence of moisture absorption on damping of tennis
rackets is characterised. Three thermoset and one
thermoplastic matrix composites are used for the rackets.
The first is a carbon/epoxy system, and the second is similar
except that the epoxy is a PU-modified type. The third is an
interleaved composite that adds nylon 6 non-woven fabrics
in between the carbon/epoxy plies. The last is a thermoplastic
composite made from commingled yarns that mix carbon
and nylon 6 filaments. Based on these materials, four
prototypes of tennis rackets with identical shape are
fabricated. Two environments representing extreme
hygroscopic conditions are applied to the rackets. One is a
dried condition that forces the rackets to expel moisture, the
other is a wetted condition that allows the rackets to be fully
saturated. Under these conditions the vibration tests are
conducted by using the impulse method. The time-response
of the rackets excited by a hammer is acquired, and the
corresponding frequency response function is calculated in
real time. The resonant frequency and the damping ratio are
measured for each racket under the dried and wetted
conditions. How the vibration behaviour depends on the
material systems and how the rackets respond to the
hygroscopic conditions are discussed. 10 refs.
TAIWAN
Accession no.784041
© Copyright 2001Rapra Technology Limited 27

References and Abstracts
Item 37
Scrap Tire News
14, No.7, July 2000, p.1/10
RUBBERCYCLE MAKES PLAYGROUNDS
SAFER
When Rubberecycle opened nearly eighteen months ago,
it already had the tyre contract for Ocean County, New
Jersey in hand and an eager parks and recreation
department ready to install the company’s signature
product - Playsafer - a crumb rubber surfacing material
for use on playgrounds and recreation areas. In fact,
Rubberecycle has been a part of the county’s solid waste
management plan since March 1997. The system at
Rubberecycle consists of a two-stage ambient processing
operation followed by a cryogenic system and a
hammermill for final granulation to 100 mesh size. Details
are given.
RUBBERCYCLE
USA
Accession no.783765
Item 38
Rubber World
222, No.2, May 2000, p.30/6
OVERMOLDING AND CO-EXTRUDING MELT-
PROCESSIBLE RUBBER ON RIGID
SUBSTRATES
Santoleri D; Armour J
Ferro Corp.
Soft-touch materials are frequently used in combination
with rigid substrates nowadays, for example in car
interiors, hand tools, personal care items, and sporting
goods. Manufacturers are challenged to find the best
means of joining hard and soft materials. This article looks
at traditional methods and also a variety of new processing
techniques such as: co-injection moulding, two-shot
moulding, insert moulding, and co-extrusion. It also
examines the properties of melt-processible rubber (MPR)
and describes over-moulding and co-extruding with MPR.
BLACK & DECKER; DYNABRADE; WATERLOO
INDUSTRIES; LESUER
USA
Accession no.783619
Item 39
Machine Design
72, No.15, 3rd Aug. 2000, p.72-6
REINFORCED PLASTICS MAKE METALS
LOOK WEAK
Johnson P; Greene T
Applied Fiber Systems Ltd.
The construction and compression moulding basics of
continuous fibre reinforced thermoplastic composites,
highly drapable and conformable versions of which have
recently been developed, are detailed. Mould design
considerations are also summarised and variations of the
compression moulding process used to make composite
parts, such as kayak paddles, are described. These
variations are single-press/heated-cooled platens, hot/cold
shuttle press and single-press/heated-cooled moulds.
Some mechanical and thermal properties of these
composites are compared with those of standard,
unreinforced and discontinuous reinforced products.
USA
Accession no.783469
Item 40
European Plastics News
27, No.6, June 2000, p.29
GAS-ASSIST TO THE FORE
A new golf cart roof has been produced in the USA using
gas-assisted injection moulding. It is one of the largest
parts ever manufactured in this way. This article takes a
detailed look at its development and production.
CINPRES; THOMSON PLASTICS; MODEL DIE &
MOLD; MONTELL; MOLDFLOW; MILACRON
EUROPEAN COMMUNITY; EUROPEAN UNION; UK; USA;
WESTERN EUROPE
Accession no.783349
Item 41
Materie Plastiche ed Elastomeri
65, Nos.1/2, Jan./Feb.2000, p.34/41
Italian
UNTIL THE BOAT LEAVES
Nazari G
Developments in the use of plastics, composites and
coated fabrics in boat construction are examined on the
basis of craft featured at the 1999 Genoa Boat Show. Some
statistics are presented for the Italian boating market.
UCINA; SELVA; CAROLINA SKIFF INC.; NEVEUX
LOISIRS; EURO TANK NORD; MARTINI;
MARIPOSA; WATERGAMES; SAPIENS & SAPIENS
EUROPEAN COMMUNITY; EUROPEAN UNION; FRANCE;
ITALY; USA; WESTERN EUROPE
Accession no.783044
Item 42
Plastics and Rubber Weekly
No.1850, 18th Aug.2000, p.7
HOMEBLOWN - SURF BOARD FOAM THE
NEW WAY
Boatshed has established itself as the UK’s leading
supplier of surfboard blanks, with a 60% share of the
market, estimated to be worth 300,000 pounds sterling.
In addition, 15% of its production is exported to Europe.
The company’s own manufacturing technology,
HomeBlown, was developed around MDI rather than TDI,
the material most commonly used in the manufacture of
surfboard blanks. One of the main drivers in using MDI
was to minimise the health risks to employees and to
28 © Copyright 2001 Rapra Technology Limited

References and Abstracts
reduce the environmental impact of the business. A CNC
system was developed, which ensures that the foam is
delivered exactly where it is required, and in the correct
volume and density. Tests have shown that HomeBlown
foam outperforms any of the competitors’ strength-toweight
ratio, whiteness and durability in use.
BOATSHED LTD.
EUROPEAN COMMUNITY; EUROPEAN UNION; UK;
WESTERN EUROPE
Accession no.782593
Item 43
Advanced Materials & Composites News
22, No.15, 7th Aug. 2000, p.6
NEW, COMPOSITE-MODIFIED BASEBALL BAT
PATENTED
A new composite-modified baseball but for professional
league players has been developed by PCs of Escondido,
California, which incorporates a hybrid composite overlay
on a conventional wood bat handle. This addition, is
claimed to yield a synergistic performance, provide safety
enhancement, and does not degrade the bat’s playability.
The hybrid composite includes an AS-4 carbon fibre from
Hexcel with Kevlar 49 from DuPont.
PCS
USA
Accession no.781173
Item 44
Revue Generale des Caoutchoucs et Plastiques
77, No.783, Feb.2000, p.32
French
BOATING: FINE WEATHER FOR PLASTICS
Forest J P
Trends in the boating market in France are examined, and
a number of statistics are presented.
FEDERATION DES INDUSTRIES NAUTIQUES
EUROPEAN COMMUNITY; EUROPEAN UNION; FRANCE;
WESTERN EUROPE
Accession no.780257
Item 45
Reinforced Plastics
44, No.5, May 2000, p.10
MATERIAL NOT DESIGN SNAG FOR TEAM
PHILIPS
This short article reports briefly on the failure of a section
of the hull of Team Philips, the world’s largest catamaran,
which broke off during sea trials recently. Initial analysis
has indicated that the problem was a material fault, not a
design fault.
SP TECHNOLOGIES; GOSS CHALLENGE LTD.
EUROPEAN COMMUNITY; EUROPEAN UNION; UK;
WESTERN EUROPE
Accession no.779381
Item 46
Plastics News International
May 2000, p.30-1
GAS ASSIST SYSTEM EMPLOYED IN
SUPERDOME SEATING
We are informed that the multi-purpose SuperDome built
for the Sydney Olympics features injection-moulded
seating which was manufactured by Camatic Pty. Ltd.
using Battenfeld’s “Airmould” gas-assisted technology.
This article fully describes the seating and the machinery
used to mould it.
BATTENFELD; CAMATIC PTY.LTD.
AUSTRALIA; WORLD
Accession no.779315
Item 47
Advanced Materials & Composites News
22, No.9, 1st May 2000, p.5-6
NEW ALUMINUM/CARBON FIBER
COMPOSITE DELIVERS SUPERIOR
PERFORMANCE
This short article highlights the development of a new,
super-lightweight, super-strong, aluminium/carbon fibre
“Next LP” composite crank for mountain bikes, from Race
Face Components of the USA. Brief details are provided.
RACE FACE COMPONENTS INC.
USA
Accession no.777912
Item 48
Engineering Design
No.2, 2000, p.6-7
SPORTS SHOES WITH DUPONT ENGINEERING
POLYMERS SET THE PACE
Marabelli F
DuPont Italiana SPA
The use of engineering plastics from DuPont by
manufacturers of a variety of sports shoes is described.
The design is described of hiking boots which incorporate
a Hytrel thermoplastic polyester elastomer in an
innovative insole, running shoes with a sole plate made
from Zytel nylon, and cycling shoes moulded from glassreinforced,
toughened Zytel nylon. In each application,
the advantages afforded by the materials in terms of
athletic performance, are discussed.
EUROPEAN COMMUNITY; EUROPEAN UNION; ITALY;
WESTERN EUROPE
Accession no.777810
Item 49
Materie Plastiche ed Elastomeri
64, Nos.11/12, Nov./Dec.1999, p.701-2
Italian
NOVELTIES ON TWO WHEELS
Calato F
© Copyright 2001Rapra Technology Limited 29

References and Abstracts
Applications of GE Plastics’ Lexan polycarbonate in
visors for motor cycle helmets and Lexan Margard
polycarbonate sheeting in windshields for large
scooters are described. Statistics are presented for
Italian production of motor cycles and other two- and
three-wheeled vehicles in the first six months of 1998
and 1999.
GE PLASTICS; PIAGGIO; HONDA ITALIA
EUROPEAN COMMUNITY; EUROPEAN UNION; ITALY; USA;
WESTERN EUROPE
Accession no.776782
Item 50
Industria della Gomma
43, No.10, Dec.1999, p.42-4
Italian
INFLATABLES, LIFEBELT OF THE ITALIAN
BOAT INDUSTRY
Economic trends in the Italian boat industry are examined,
and the importance of inflatable boats in the market is
discussed. Developments in wholly inflatable boats and
structures combining inflatable components with GRP
hulls are reviewed, and some craft featured at the 1999
Genoa Boat Show are described.
UCINA; ALSON; NOVAMARINE; SOLEMAR;
CONTITECH; PENNEL & FLIPO SA;
WATERGAMES
EUROPEAN COMMUNITY; EUROPEAN UNION; FRANCE;
GERMANY; ITALY; WESTERN EUROPE
Accession no.776767
Item 51
Plastics News(USA)
12, No.12, 22nd May 2000, p.23
MAINE RIVER INSPIRES CENTURY OF
CANOES
Smith S S
This article gives information on the canoe building
,company Old Town Canoe Co., giving details on the
history of the company, types of canoes built and the
materials used. Brief details are also provided on
acquisitions of the company.
OLD TOWN CANOE CO.; UNIROYAL PLASTICS
CO.INC.; TEKNOR COLOR CO.; CARLISLE
PADDLES INC.; WHITE CANOE CO.; OCEAN
KAYAK INC.
USA
Accession no.773401
Item 52
Modern Plastics International
30, No.3, March 2000, p.80/2
NOVEL TECHNOLOGIES BOOST
PERFORMANCE PROFILE OF POLYOLEFIN
FOAMS
Graff G
It is explained that new polymerisation, crosslinking, and
foaming technologies are creating higher strength and
lower density polyolefin foams that are challenging
conventional polyolefin foams in packaging, sporting
goods, automotive, medical, and building applications.
This article provides detailed information on these new
technologies.
TOWNSEND TARNELL INC.; SENTINEL
POLYOLEFINS LLC; DOW PLASTICS; PACTIV
CORP.; TREXEL INC.; SEKISUI CHEMICAL
CO.LTD.
EUROPE-GENERAL; NORTH AMERICA; USA; WORLD
Accession no.772880
Item 53
Modern Plastics International
30, No.4, April 2000, p.20A-C
OLYMPIC STADIUM SEATING USES GAS-
ASSIST PROCESS
Stadium seating moulded with gas-assisted injection
moulding will be lending its support to this year’s Olympic
Games in Sydney, Australia. The arm rests, produced in
flame-retardant nylon, were designed for the short-shot
technique, while the PP backrest and seat were produced
using an overflow chamber system. The decision to use a
full-shot or a short-shot technique is dictated by part
design. In another development, a hollow tube has been
produced using the gas-assisted injection moulding
process.
CAMATIC PTY.LTD.
AUSTRALIA
Accession no.772687
Item 54
Machine Design
72, No.8, 20th April 2000, p.34-5
THERMAL FEA KEEPS FOOTBALL FIELD
GREEN IN WINTER
Dvorak P
A turf-conditioning system has been developed to warm
the grass of a football field. The system, designed and
installed by Rehau, has 11.65 miles of plumbing and more
than 40 miles of Raupex pipe. Heat-transfer software from
Algor waas used to determine the amount of energy
needed to run the system and optimise overall
performance for differing environmental conditions. The
piping, made of high-density crosslinked PE, lies on a
bed of gravel under a sandy soil mixture.
REHAU INC.
USA
Accession no.772587
Item 55
Polymer Composites ’99. Conference proceedings.
Quebec, Canada, 6th-8th Oct.1999, p.331-41
30 © Copyright 2001 Rapra Technology Limited

References and Abstracts
RECYCLING TECHNOLOGIES FOR
CONTINUOUS GLASS FIBRE/
POLYPROPYLENE COMPOSITES
Denault J; Robert C; Michaud J; BureauM N
National Research Council of Canada
(SPE; National Research Council of Canada)
Continuous glass fibre/PP composite is a material
particularly attractive as it can be processed without
emission of volatile products and used in applications
in which high stiffness and strength are required. The
automotive industry plans a number of uses for this
class of material and other applications in marine,
transportation, sport and other industrial uses are also
expected. As a result of this huge potential volume of
production, a growing amount of waste material is
expected for the next few years. It is shown that the
continuous glass fibre fabric PP composites are
thermally stable in strong recycling conditions, making
them an attractive choice for applications in which high
stiffness, strength and recyclability are required. While
the use of conventional technologies for recycling of
continuous glass fibre fabric PP composites do not
permit to obtain composite material showing structural
performance this leads to performance equivalent to
those observed for the long glass fibre injection
moulding grade and 50% of the performance of the
compression moulded GMT preform. 6 refs.
CANADA
Accession no.771720
Item 56
TPE’s 2000. Conference proceedings.
Philadelphia, Pa., 28th-29th Sept.1999, p.203-16
MULTI-COMPONENT INJECTION MOULDING
WITH TPES
Tam E; Messina T
J-Von Co.
(SPE,Thermoplastic Elastomers Special Interest Group;
SPE,Philadelphia Section)
Thermoplastic elastomers have been used extensively
in the consumer, electronics, power tools, horticultural,
appliances, telecommunications, personal care
products, and sports and leisure markets either as an
insert moulding or as an overmoulding substrate in
combination with rigid materials. The results are better
soft-touch feel, ergonomics and a change of consumer
taste preferences in soft versus hard feel. Several
classes of thermoplastic elastomers that are designed
as insert or overmoulding compound for high impact
PS, K-resin, PP, ABS and polyamides such as nylon 6
and 6/6 without the use of adhesives are discussed.
Mechanical properties of these materials are covered.
Some typical applications and materials selection are
illustrated.
USA
Accession no.771582
Item 57
Plastics News(USA)
12, No.10, 8th May 2000, p.57
OLYMPIANS TO PLAY ON POLYPROPYLENE
TURF
Weston P
Details are given on a new turf with polypropylene fibres
woven through its base to strengthen the playing surface.
The new sports surface is said to improve drainage and
make the ground softer and can also be rearranged,
allowing worn areas to be replaced.
HG TURF PTY.LTD.; MOTZ GROUP INC.
AUSTRALIA
Accession no.771505
Item 58
Advanced Materials & Composites News
22, No.10, 15th May 2000, p.10-11
EXEL ACQUIRES FIBERSPAR PERFORMANCE
PRODUCTS’ BUSINESS OPERATIONS
Details are given on the acquisition of Fiberspar
Performance Products by Exel Oyj. The companies
manufacture and market sports equipment such as
composite windsurfing masts and booms and it is said
that the acquisition will strengthen Exel’s technology
through Fiberspar’s expertise in 3-axial braiding and RTM
production method. It is hoped that these extra
technologies will enable Exel to offer products
manufactured with new fibre structure solutions and
improve their technological market situation.
EXEL OYJ; FIBERSPAR PERFORMANCE
PRODUCTS
Accession no.771471
Item 59
Materials World
7, No.12, Dec.1999, p.739-40
LOOKING INTO THE SOLE - TESTING SHOE
MATERIALS
Dengler K; Lang A
adidas-Salomon AG
The design of sports shoes is described with reference to
the functions in terms of athletic performance of the sole
material and construction. The complex nature of the
variation of forces on the different parts of the shoe is
examined at the adidas-Salomon test centre by the use of
an Instron testing machine, which is capable of simulating
force-time relationships The test centre uses a 8502 testing
machine from Instron, which enables both the testing of
the damping properties of existing shoe soles and the
investigation and optimisation of further suitable
materials. Further details are given of the testing of sports
shoe designs and materials at the test centre.
EUROPEAN COMMUNITY; EUROPEAN UNION; GERMANY;
WESTERN EUROPE
Accession no.770847
© Copyright 2001Rapra Technology Limited 31

References and Abstracts
Item 60
Reinforced Plastics
44, No.3, March 2000, p.52-3
COST EFFECTIVE CARBON FABRICS, THE
FOCUS FOR DEVOLD AMT
Birkeland P
Devold AMT AS is focusing on developing fabrics of
carbon fibre and thermoplastic fibres mixed with glass
fibre as part of its goal to maintain its position as the
number one in multiaxial carbon fibre reinforcements, it
is reported. The company has invested in new equipment
in order to maintain this status. Details are given of
product developments, and in particular, its Paramax
(parallel multiaxial) multiaxial multiplied fabrics for the
sports and aircraft, marine and wind turbine industries.
DEVOLD AMT AS
NORWAY; SCANDINAVIA; WESTERN EUROPE
Accession no.767332
Item 61
Composites Technology
5, No.4, July/Aug.1999, p.40-2
ENGINEERING INSIGHTS - CONVERTIBLE
COMPOSITE CHASSIS SKATES AWAY FROM
THE PACK
This detailed article is one of a series on engineering
insights, where an engineering challenge is presented, and
a design solution found. In this particular article, the
challenge is to produce an in-line skate with a lightweight
detachable wheel chassis. The chassis must withstand highimpact
stresses, enormous dynamic loads and exposure to
dirt, water, and weather, and be competitively-priced. The
design solution is provided by MGM SpA of Italy, (who
used Zytel and Delrin from DuPont), and is fully explained.
MGM SPA; DUPONT ENGINEERING POLYMERS
EUROPEAN COMMUNITY; EUROPEAN UNION; ITALY; USA;
WESTERN EUROPE
Accession no.765294
Item 62
Plastics News(USA)
11, No.54, 28th Feb.2000, p.17
SURF’S UP FOR HIGH-TECH COMPOSITE
BOARDS
Renstrom R
This article examines the use of composites in the
manufacture of surf-boards, with the help of comments from
three major US board producers: Surf Technicians Inc., Rusty
Surfboards Inc., and Adventure Sports Inc. The way the
companies each produce the boards is briefly described.
SURF TECHNICIANS INC.; OWENS CORNING;
RUSTY SURFBOARDS INC.; BIC SPORT;
ADVENTURE SPORTS INC.
EUROPEAN COMMUNITY; EUROPEAN UNION; FRANCE;
THAILAND; USA; WESTERN EUROPE
Accession no.765267
Item 63
Engineering
241, No.1, Jan.2000, p.31-2
PLUG AND PLAY
Ward J
Paul Handley is a naval architect based in Old Coulsdon,
Surrey. Concentrating on small vessels, his work includes
the design of yachts, dinghies and all keel-boats. However,
while Handley’s craft is one the oldest engineering design
tasks known to humanity, he is one of the UK’s pioneers
of the latest methods of production. The design of small
boats is very much an evolutionary process. The basic
rules governing stability and hydrodynamic performance
are now comparatively well understood, and the materials
choice comes down to a decision between wooden
construction and the use of GRPs, with some use of aramid
and carbon fibre in special applications. However, the
development of a new hull design has remained a
surprisingly manual process, despite advances in CAD
technology and the availability of specialist boat design
packages. Details are given.
EUROPEAN COMMUNITY; EUROPEAN UNION; UK;
WESTERN EUROPE
Accession no.765199
Item 64
International Polymer Science and Technology
26, No.8, p.T/56-T/61. (Translation of Muanyag es
Gumi, No.5, 1999, p.152)
CARBON FIBRE: THE CONSTRUCTION
MATERIAL OF THE 21ST CENTURY
Kovacs J
Applications incorporating carbon fibres are reviewed,
following a brief historical survey of its production.
Tensile strength characterisation is examined and a
comparison is included of the strength characteristics of
carbon, metal and glass fibres. Comparisons are made by
the use of density-related modulus evaluations, and
dimensionless magnitudes, which demonstrate the high
mechanical properties and heat resistance of carbon fibres.
Various carbon fibre-reinforced composite types are
described, and application areas discussed, include sports
equipment, electronics, transport, concrete systems,
building and marine industries, friction elements,
industrial applications and alternative energy applications.
2 refs.
ZOLTEK CORP
EASTERN EUROPE; HUNGARY
Accession no.764655
Item 65
Injection Molding
8, No.3, March 2000, p.123-5
MYSTERY OF THE CRACKED STADIUM SEATS
Lantos P
Target Group Inc.
32 © Copyright 2001 Rapra Technology Limited

References and Abstracts
An injection moulder in Japan made 30,000 stadium seats,
of which some developed a centre crack soon after
installation. The seats had been moulded from orangepigmented
HDPE. After several tests, it was found that
the cracked seats had roughly half the impact strength of
the good seats. It was hypothesised that the resin of the
cracked seats had encountered excessive heat in the
moulding process, followed by rapid cooling. This would
have set up internal stresses in the part, resulting in
cracking during use.
USA
Accession no.764507
Item 66
Plastics News International
Jan./Feb.2000, p.18
QUANTUM LEAP FORWARD FOR STADIUM
SEATING
This article tells the story in detail of how Camatic, a
Melbourne, Australia-based seating manufacturer is,
through the use of gas-assisted injection moulding,
pioneering a new era in sports stadium seating with its
“Quantum” chair.
CAMATIC
AUSTRALIA; HONG KONG; KOREA; MALAYSIA; NEW
ZEALAND; SINGAPORE; SOUTH AMERICA; TAIWAN
Accession no.762998
Item 67
Rubber and Plastics News 2
21, No.6, 20th Dec.1999, p.5
POLYMERS, ELASTOMERS PLAY INTO
SPORTING GOODS MARKET
Lauzon M
This article gives information on sporting goods made
from ultra-soft thermoplastic elastomers. Details are given
on Versaflex CL2000 from GLS Corp., J-Soft from J-Von
which can be brightly coloured and has excellent water
resistance, also on QST TPE that bonds to engineering
resins, simplifying production of underwater diving
equipment. Polyurethanes are also discussed for their use
in production of water skis, cross-country skis and
snowboards.
GLS CORP.; J-VON N.A.LLC; QST INC.; BAYER
CORP.; TUBBS SNOWSHOE CO.
Accession no.761837
Item 68
Industria della Gomma
43, No.7, Sept.1999, p.58-9
Italian
SIGNS OF RECOVERY FOR THE FOOTWEAR
SECTOR
The structure of the footwear industry in Italy is examined,
and statistics are presented for Italian production and
exports of machinery used in this sector. Injection
moulding machines and raw materials for footwear
manufacture featured by a number of companies at the
Simac exhibition (Bologna, 5th-8th May 1999) are
reviewed.
MAIN GROUP; BGM SPA; GUSBI; API; ICI
POLYURETHANES; KEMI SRL; WITCO CORP.
EUROPEAN COMMUNITY; EUROPEAN UNION; ITALY; UK;
USA; WESTERN EUROPE; WORLD
Accession no.758770
Item 69
Materiale Plastice
36, No.3, 1999, p.180-4
Rumanian
INDUSTRIAL RESEARCH FOR GETTING
MICROCELLULAR PU ELASTOMERS FOR
SPORTS SHOE SOLES
Bolcu C; Martin O; Lucaciu N; Banut C; Szabo E
Timisoara,Technical University
This paper contains an experimental study carried out at
industrial phase using the foaming installation in order to
obtain soles for sports footwear. The raw material was a
microstructure PU elastomer synthesised using the system
PADE/MEG/SP-2. This paper contains both the functional
parameters for the synthesis of the shoe soles and the best
formulas for the system PADE/MEG/SP-2. Finally, the
physical-mechanical characteristics of the microstructure
PU elastomers obtained using the foaming installation
are presented. 3 refs.
EASTERN EUROPE; RUMANIA
Accession no.758039
Item 70
Plastics News(USA)
11, No.41, 29th Nov.1999, p.15-6
EVER-IMPROVING PLASTICS GET IN THE
GAME
Lauzon M
A review is presented of product developments in the
sports and leisure markets, which have improved
performance and design features due to their use of
polymeric materials. In particular, water sports goods are
described which have taken advantage of the new soft
feel materials. Product developments in snow, water and
land sports are described.
USA
Accession no.757722
Item 71
Macplas International
No.6, May 1999, p.88-9
SIMULATED MOULDING
This article explains some of the difficulties of injection
moulding large toy cars and bicycles, and how the use of
© Copyright 2001Rapra Technology Limited 33

References and Abstracts
short fibre reinforced thermoplastics (SFRT) can alleviate
these problems. It then looks at the time-consuming
process of prototyping, and introduces HiperPlast, an
efficient and reliable computer simulator for the injection
of SFRT.
VALENCIA,POLYTECHNICAL UNIVERSITY;
ONILCO
EUROPE-GENERAL; EUROPEAN COMMUNITY; EUROPEAN
UNION; ITALY; WESTERN EUROPE
Accession no.757295
Item 72
Macplas International
No.6, May 1999, p.75-6
GOLFING ACCESSORIES
In this article, three golfing accessories are highlighted.
The first is a nine-slot irons organiser from Caddyrack
UK, moulded in Capron 8253 BK 102 nylon 6 resin grade
supplied by AlliedSignal. The second is also from
Caddyrack - a club handle attachment to help with correct
positioning of the player’s hands. It is made from Capron
8202 BK 102 nylon 6. The third product is a tranparent
UV-protective golf-cart top from Polymer Innovations
Corp. This is made from polyester sheet extruded from
Spectar copolyester supplied by Eastman Chemical.
CADDYRACK UK; ALLIEDSIGNAL; POLYMER
INNOVATIONS CORP.; EASTMAN CHEMICAL
EUROPEAN COMMUNITY; EUROPEAN UNION; UK;
WESTERN EUROPE
Accession no.757292
Item 73
Engineering Design
No.3, 1999, p.7
NEW “TRANSFORMABLE” INLINE ROLLER/
ICE SKATE FROM MGM
Marabelli F
DuPont Italiana SpA
MGM’s new Scout skating shoe can either be combined
with a removable plate with wheels for inline roller skating
or, alternatively, with a second plate incorporating a
stainless steel blade for ice skating. The inline plate
commercialised for inline roller skates, made of Zytel ST
nylon, has been extended to a stainless steel ice skating
blade overmoulded with a support of Zytel ST. An
injection moulded interface part of Delrin 500T acetal
resin is positioned between the blade structure and the
shoe.
MGM SPA
EUROPEAN COMMUNITY; EUROPEAN UNION; ITALY;
WESTERN EUROPE
Accession no.756716
Item 74
Canadian Plastics
57, No.12, Dec.1999, p.6
NEW ELASTOMER PUTS B.C. FOOTWEAR
COMPANY ON FAST TRACK
Botex Industries, a manufacturer of footwear components
for the athletic and casual shoe industries, has entered
into an R&D agreement with Converse Footwear to create
shoe parts with a promising new elastomer material. The
material is described as an elastomeric compound with a
phthalate-free plastisol base. It can be formulated with a
durometer hardness range of 30 to 85 Shore A and a
density ranging from 0.4 to 1.3g/cc, in solid or foamed
forms. By adjusting the formula, the material can work
in both cushioning and abrasion applications.
BOTEX INDUSTRIES CORP.; CONVERSE
FOOTWEAR
USA
Accession no.756701
Item 75
Lancaster, Pa., Technomic, 1999, pp.ix,623. $350.00.
28cms. 10/12/99
POLYURETHANES EXPO ’99. PROCEEDINGS
OF A CONFERENCE HELD ORLANDO, FL.,
12TH-15TH SEPT. 1999
American Plastics Council,Alliance for the
Polyurethanes Industry
This conference focuses on the technical developments
in the field of polyurethanes. Main sessions examine
process innovations, coatings, adhesives, sealants and
elastomers, and automotive, footwear, construction and
furnishings applications. Papers include fibres based on
blends of plasticised PVC and polyurethane, super low
density polyurethane systems for sports shoes, foam
processes and applications, polyurethane foam as an
integral core component of automotive headliner, and
monitoring potential degradation of polyurethanes in a
landfill simulator.
Accession no.755816
Item 76
Polyurethanes Expo ’99. Conference proceedings.
Orlando, Fl., 12th-15th Sept.1999, p.197-8
RECYCLED PU USING A NOVEL TECHNIQUE
Chandrasekaran R
Quantum Polymers USA Inc.
(American Plastics Council,Alliance for the
Polyurethanes Industry)
Scraps of PU soles are successfully recycled with some
interesting findings using a scrap rubber recycling
technique with slight modifications. Work carried out in
comparing the properties of the recycled materials with
virgin PU is reviewed. The recycled PU seems to have
better processing characteristics and certain enhanced
physical properties relative to virgin PU. The findings
from this work, it is believed, would open a vast potential
for recycling various scraps of PU for manufacture of
34 © Copyright 2001 Rapra Technology Limited

References and Abstracts
moulded products, particularly in shoes and other sports
goods applications.
USA
Accession no.755682
Item 77
Polyurethanes Expo ’99. Conference proceedings.
Orlando, Fl., 12th-15th Sept.1999, p.189-92
SUPER LOW DENSITY POLYURETHANE
SYSTEMS FOR SPORTS SHOES
Sawai M; Miyamoto K; Takemura K; Mori M;
Kiuchi K
Kao Corp.
(American Plastics Council,Alliance for the
Polyurethanes Industry)
A new concept of producing very lightweight (0.24-0.26 g/
cub.cm) PU midsoles instead of EVA for sports shoes is
described in detail. Materials for the midsole of the dual
density sport shoes are composed of PU or EVA. Although
PU midsole has good cushioning (resilience), adhesive and
processing properties compared with conventional EVA
systems, it is difficult to reduce the moulding form density
drastically. Recently, developments for high performance
PU systems have focused on reducing the density by
maintaining high physical properties. To solve this problem,
several new progressive technologies are developed. The
first uses a polyester polyol with functional cohesive units
in main polymer chains. Using this polyester polyol, the hard
segments of PU become tougher along with resin. The second
distributes the cell diameter gradient toward the centre of
the foam cross section. The split tear, one of the most
important physical properties for midsole, is improved
drastically. These new technologies will expand very
lightweight PU into new applications and markets. 3 refs.
JAPAN
Accession no.755680
Item 78
Canadian Plastics
57, No.10, Oct.1999, p.42
FOAMED PARTS, BUOYANT REVENUES
Applications for Finproject N.A. Inc.’s process for
injection moulding expanded EVA are discussed. The
foamed part produced is said to expand from between
1.4 to 1.9 times the original size when removed from the
mould. Applications cited include shoe soles, boat
bumpers, kick boards, sport padding, padding for hot tubs,
wheels, snow board bindings and kayak seating pads.
Research to find other materials for the process it is
reported is being carried out, and resin suppliers and the
National Research Council’s Industrial Materials Institute
in Boucherville, Quebec are said to be assisting Finproject
in this aim.
FINPROJECT N.A.INC.
CANADA
Accession no.755217
Item 79
Macplas
24, No.211, Sept.1999, p.130-2
Italian
RACING BOAT HULL
An account is given of finite element methodology which
was employed by the University of Palermo to optimise
fibre orientation in the skins of a sandwich structure used
in the construction of a racing boat hull, with the objective
of achieving improved mechanical performance under
various navigation conditions. The structure examined
consisted of a PVC foam core and carbon fibre-reinforced
epoxy resin skins.
PALERMO,UNIVERSITY; ADM;
NAPOLI,UNIVERSITA
EUROPEAN COMMUNITY; EUROPEAN UNION; ITALY;
WESTERN EUROPE
Accession no.754652
Item 80
European Plastics News
26, No.11, Dec.1999, p.37
ACETAL TURNS THE CORNER
Warmington A
Overall, 1999 has been a year of stagnation for polyacetal
and growth will probably be in the range of 1-2%.
However, producers are seeing a marked improvement
in this quarter. Europe’s three main producers are currently
seeking to rectify a two-year price slide by pushing
through an increase of 30pfg/kg. Currently, indicative
price ranges for general purpose injection moulding
copolymer grades are DM4.15-5.00/kg. The healthiest
demand for polyacetal has come from the automotive
sector and demand from the sports and leisure sector has
also been good in recent months.
WESTERN EUROPE-GENERAL
Accession no.754607
Item 81
European Plastics News
26, No.11, Dec.1999, p.35-6
TRAINER TRENDS
Lee S
A modern high-tech sports shoe sole can consist of up to
25 components covering a wide range of plastics,
elastomers and rubber compounds. The best known sports
shoes are the “white” shoes produced by such companies
as Nike. In their most basic form, these consist of sole
units that have rubber outsoles with mid-soles of EVA,
elastomeric blown PU or polyolefin elastomers. The
uppers of these shoes also include a large number of plastic
components. Other areas of sports footwear include
“plated” sports shoes, such as football boots, and shell
constructions, such as ski boots.
EUROPEAN COMMUNITY; EUROPEAN UNION; UK;
WESTERN EUROPE
Accession no.754606
© Copyright 2001Rapra Technology Limited 35

References and Abstracts
Item 82
European Plastics News
26, No.11, Dec.1999, p.33-4
SPORTING CHANCES
Warmington A
Plastics are used in many different sports and leisure
applications, from clothing and camping gear to tennis
racquets and golf clubs. PUs and engineering plastics
made up 58% of the 39,000 tonnes of advanced materials
used in North America in 1997. It is forecast that
consumption of plastics in this sector, which refers mainly
to golf, skiing and tennis, will fall slightly in the coming
years, reaching 22,300 tonnes in 2002.
WORLD
Accession no.754605
Item 83
Adhasion Kleben & Dichten
41, Nos.7-8, 1997, p.13/6
German
THROUGH ADHESIVES TECHNOLOGY TO
HIGHEST PERFORMANCE IN SPORT
Shelford R
CIBA Specialty Chemicals Ltd.
In the field of high performance sports equipment
struggling with competition is just as hard as in sport itself.
Growing challenges for global competition on the other
hand are giving rise to steady further developments in
sports equipment which can only be achieved through
using adhesives technology. Changes in designs over the
last twelve years are examined along with the impact on
the use of adhesives arising from new lighter materials in
the construction of sports products, including kit light
aircraft and bicycles which need to be glued together.
Epoxide adhesives are discussed, as well as wood
adhesives, the effects of temperature and hardening and
the need to bond aluminium and carbon fibres, also the
application of adhesives to golf clubs with stainless steel
club heads and fibre glass reinforced plastic handles.
LOTUS; GIANT MFG.CO.LTD.
EUROPEAN COMMUNITY; EUROPEAN UNION;
SWITZERLAND; TAIWAN; UK; WESTERN EUROPE; WORLD
Accession no.754456
Item 84
Advanced Materials & Processes
156, No.4, Oct.1999, p.8
THERMOPLASTIC ELASTOMERS ARE
EVERYWHERE
A special thermoplastic elastomer film is being used to
make the bladder of all NFL footballs and every football
produced by Wilson Sporting Goods. The TPU film is
supplied by Deerfield Urethane. Another TPU, provided
by Stevens Urethane, is used in an air bladder system for
antivibration gloves. Gillette’s Mach 3 razor has a softgrip
handle provided by a custom-blended TPE developed
by GLS. Advanced Elastomer Systems’ Santoprene 8000,
a colourable, soft-touch TPE, is specified by ACCO
Brands for its Swingline Contura line of staplers.
USA
Accession no.754180
Item 85
Scrap Tire News
13, No.10, Oct.1999, p.1/8
RUBBER BRICKS GIVE SPRUCE MEADOWS A
LEG UP
In the arena of professional jumping competition, the
stakes are high and the risks are great for both horse and
rider. In order to continue attracting the world’s best horse
jumpers, Spruce Meadows, located south cast of Calgary,
is constantly searching for new ways to improve the safety
of horses that compete there. To reduce the risk of horses
slipping on their way into competition, the facility needed
to find a safer material to surface walkways and entrances
to arenas. Spruce Meadows has partnered with the Tire
Recycling Management Association of Alberta (TRMA)
to install interlocking rubber bricks manufactured from
Alberta’s scrap tyres. Details are given.
ALBERTA,TIRE RECYCLING MANAGEMENT
ASSOCIATION
USA
Accession no.753909
Item 86
Injection Molding
7, No.11, Nov.1999, p.24-5
MEXICO AND CANADA: BOTH OPPORTUNITY
AND COMPETITION
Von Hassell A
Repton Group
Mexico and Canada are seen as export opportunities for
US injection moulders as well as a source of competition.
Both countries are potential markets for high value-added
and often complex moulded parts, but are also a major
and effective competitor for high volume, low-cost parts.
Data are given to demonstrate trade patterns, including
projected figures for changes in imports and exports of
key products with numerous injection moulded
components. US imports from Canada and Mexico and
exports from the US to Canada and Mexico for 2000-
2005 are given for automotive parts, medical devices,
consumer electronics, business electronics, toys and
sporting goods, packaging items, furniture and
components, and housing and components.
CANADA; MEXICO
Accession no.752961
Item 87
Revista de Plasticos Modernos
78, No.517, July 1999, p.59-67
36 © Copyright 2001 Rapra Technology Limited

References and Abstracts
Spanish
APPLICATIONS OF POLYMERS IN SPORT
Perena J M
Instituto de Ciencia y Tecnologia de Polimeros
Sports applications of plastics, engineering plastics,
rubbers, thermoplastic elastomers and composites are
reviewed. Developments in materials for the manufacture
of a range of sports equipment and sports footwear and
clothing are examined.
VITTORIA SPA; ALLIEDSIGNAL INC.; DU PONT
DE NEMOURS E.I.,& CO.INC.
EUROPEAN COMMUNITY; EUROPEAN UNION; ITALY;
SPAIN; USA; WESTERN EUROPE
Accession no.752768
Item 88
Revista de Plasticos Modernos
78, No.517, July 1999, p.55-8
Spanish
ELASTIC ADHESIVES IN THE SPORTS
SECTOR
Sastre A
Sika SA
The mechanical properties and adhesion characteristics
of elastic one-component PU adhesives are examined, and
applications in the bonding of plastics and composites in
the manufacture of sports equipment are reviewed.
EUROPEAN COMMUNITY; EUROPEAN UNION; SPAIN;
WESTERN EUROPE
Accession no.752767
Item 89
Kauchuk i Rezina (USSR)
36, No.5, 1999, p.152-6
Hungarian
CARBON FIBRE, THE CONSTRUCTION
MATERIAL OF THE 21ST CENTURY
Kovacs J
After a review of the short history of carbon fibre
production, the article deals with the mechanical
properties of various fibres, carbon fibres in particular.
Composites reinforced with carbon fibres are grouped
according to their matrices (polymers, metals, concrete).
Applications of carbon fibres are reviewed, such as sports
equipment, frictional elements, electronics, transport,
construction industry, shipbuilding, and alternative energy
resources. 2 refs. Articles from this journal can be
requested for translation by subscribers to the Rapra
produced International Polymer Science and Technology.
EASTERN EUROPE; HUNGARY
Accession no.751636
Item 90
Modern Plastics International
29, No.10, Oct.1999, p.131
PLASTICS DECORATING TECHNIQUE
EMPLOYS VERSATILE LIQUID IMMERSION
TECHNOLOGY
The Final Finish liquid immersion decorating technique
from Immersion Graphics transfers and permanently
fixes images of any colour, design or pattern onto any
non-porous item, including home and office furnishings,
housewares, decorative accessories, communications
devices, sports equipment and, most recently, aircraft
interior panels. The process can handle threedimensional
components either manually or
automatically.
IMMERSION GRAPHICS CORP.
USA
Accession no.749375
Item 91
Automotive Rubber Trends
3rd quarter, Sept.1999, p.38-46
STRATEGIC PROFILE OF SUMITOMO
RUBBER INDUSTRIES
Sumitomo Rubber Industries is active in three main
areas: tyres, industrial rubber products and sports goods.
The most important influence on Sumitomo’s business
over the next few years will be its new relationship with
Goodyear. Under the deal, which is a de facto takeover
by Goodyear of Sumitomo, four joint venture companies
will be set up, together with two global service and
support operations. Tyres remain Sumitomo’s core
operation, but a high exposure to the Japanese market
in the tyre segment has caused recent problems. The
company has a long-term objective to diversify further,
obtaining 50% of sales and earnings from non-tyre
operations.
SUMITOMO RUBBER INDUSTRIES CO.LTD.
JAPAN
Accession no.749314
Item 92
Rubber Asia
July-August,1999, p.158-9
LEADING PLAYER IN FOOTWEAR
The DSI Samson Group of Sri Lanka is discussed, with
reference to its fifteen companies. The group is the leading
footwear manufacturer in Sri Lanka, and nine of its
companies are manufacturers of rubber products. The
group has an annual turnover of Rs. 2500 million and has
a workforce of 3700 employees. Details are briefly given
of the activities of the nine rubber-based companies, which
includes sports shoes, bicycle tyres and tubes, rubber mats,
recycling scrap tyres, rubber mouldings, and
compounding.
DSI SAMSON GROUP
SRI LANKA
Accession no.748835
© Copyright 2001Rapra Technology Limited 37

References and Abstracts
Item 93
Kunststoffe Plast Europe
89, No.7, July 1999, p.39-40
ALMOST LIKE FLYING. NEW TPU
COMBINATIONS FOR SPORT AND LEISURE
Salm W
Elastogran GmbH
Developments in thermoplastic PU elastomers(TPU)
which help them meet the stringent demands for
maximum quality, continuous service, long lifetime and
an attractive design for the sports and leisure industries
are discussed. The physical properties of three grades of
Elastollan polyester-urethane thermoplastic elastomers are
tabulated and photographs presented of ski or snowboard
boots, ski tips (glass fibre-reinforced TPU), soles for
cycling shoes, and soles for trainers and hiking boots.
(German version of this paper, which includes tables, is
on p.118-20)
EUROPEAN COMMUNITY; EUROPEAN UNION; GERMANY;
WESTERN EUROPE
Accession no.747384
Item 94
Coatings World
4, No.6, Sept.1999, p.36-40
POWDER POWDER EVERYWHERE
Hess J
It is claimed that the powder coatings industry is the fastest
growing finishing technology in North America,
increasing at a rate of 8-10%/year in pounds of powder.
Markets such as appliance and automotive have been
reaping the benefits of powder coatings for some time.
Areas where powder coatings are becoming more popular
include general metals, protective pipe, lawn and garden,
and sports equipment.
USA
Accession no.747219
Item 95
Plastics News(USA)
11, No.22, 19th July 1999, p.30
BRITISH BOARD MAKER EYEING US SURF
TURF
White E
Boatshed Ltd.
Surfers in the UK now have access to what may be the
best surfboard foam available anywhere, following 18
months’ hard work by a small Redruth, England-based
producer, Boatshed. And wave riders in the USA and other
regions also may be able to use the new PU foam material
soon if Boatshed’s ideas about franchising the technology,
plus current talks on a US joint venture, pay off. The
company’s research and development efforts have led to
successful development of a super-white, highly
compression resistant PU foam based on MDI, together
with a foam-delivery process all under the trade name
Homeblown - for making surfboard blanks. Another
feature of the Homeblown technology is that the mould
design requires less carving in certain areas to achieve
the final shape. Hence carvers can work more rapidly with
less waste. Details are given.
EUROPEAN COMMUNITY; EUROPEAN UNION; UK;
WESTERN EUROPE
Accession no.745551
Item 96
Macplas International
No.10, Aug.1999, p.108-9
COMPOSITES ON BIKES
Araldite 2014 adhesive from Ciba Specialty Chemicals
has been chosen by Ambrosio to bond the two ends of a
light-alloy profile together to form a bicycle wheel. The
new Fibra Z Road sole for competition class cycling
shoes, moulded from glass-reinforced nylon, is designed
to concentrate the force exerted on the pedal. Zytel
73G15T, a toughened nylon 6 reinforced with 15% glass
fibre was chosen. Capron UltraTough nylon 6, with a
low level of glass fibre reinforcement, has successfully
met the stringent impact and aesthetic criteria for the
Thug BMX bike wheel manufactured by Innovations in
Composites.
AMBROSIO; PIVA-NORTHWAVE; INNOVATIONS
IN COMPOSITES INC.
EUROPEAN COMMUNITY; EUROPEAN UNION; ITALY; USA;
WESTERN EUROPE
Accession no.745396
Item 97
Macplas International
No.10, Aug.1999, p.88
OUTER SKIN
KMV has developed a type of ball for ten-pin bowling in
which the outer skin is an injection-moulded layer of
acetal homopolymer. KMV selected a special impactresistant
grade of Delrin acetal resin supplied by DuPont
for the outer layer. Ebonite pioneered balls with PU
veneers which have varying degrees of surface tack,
elasticity and resilience. ICI Polyurethanes cooperated in
the first attempts at incorporating plasticisers into the
isocyanate and polyol mix. These new ingredients add
attributes that greatly enhance ball performance.
KMV; EBONITE
USA
Accession no.745374
Item 98
Journal of Cellular Plastics
35, No.4, July/Aug.1999, p.289-310
IMPACTS OF HEMISPHERICAL STRIKERS ON
POLYSTYRENE BEAD FOAM
Mills N J; Moosa A S I
Birmingham,University
38 © Copyright 2001 Rapra Technology Limited

References and Abstracts
Impact tests with hemispherical strikers give information
on the ability of padding materials to resist intrusion and
absorb energy, for instance, for headform impacts in cars
and the design of bicycle helmets. In many applications
(packaging, motorcycle helmet liners), the PS or PP bead
foam used has a density of 50 kg m -3 or less. Higher density
foams are used in some bicycle helmets. A full analysis of
the impact would involve the modelling of a material with
a non-linear constitutive equation under complex stress
states, the contact geometry and the foam fracture
mechanics. The indentation and the cracking patterns from
hemispherical impacts of PS bead foams are investigated,
together with how these affect the predicted force deflection
relationship. Foams of varying fracture toughness, bead
size and density are tested to see which variable has the
greatest effect on cracking. 17 refs.
EUROPEAN COMMUNITY; EUROPEAN UNION; UK;
WESTERN EUROPE
Accession no.743531
Item 99
Engineering Design
No.1, 1999, p.10
ZYTEL BOOSTS PERFORMANCE OF CYCLING
SHOES
Marabelli F
DuPont Italiana SpA
Comfort, absorption of perspiration and minimal wind
resistance: these used to be the main requirements for
competition-class cyclists’ clothing. Calzaturificio Piva-
Northwave, an Italian maker of footwear for various sports,
is now using Zytel nylon to boost cyclists’ performance in a
new way. The new Fibra Z Road sole for competition-class
cycling shoes is moulded from glass-reinforced, toughened
DuPont Zytel nylon. It is a rigid, lightweight sole designed
to minimise loss of power exerted on the pedal, but is heavier
than a conventional sole. The sole is built into several models
in a new generation of cycling shoes for competition cycling,
including Team Road, Jet and Sprint, and Arctic, a special
winter model. The rigid sole enables cyclists to concentrate
all their strength on turning the pedals, without wasting effort
on deforming the sole. Details are given.
CALZATURIFICIO PIVA-NORTHWAVE
EUROPEAN COMMUNITY; EUROPEAN UNION; ITALY;
WESTERN EUROPE
Accession no.743522
Item 100
Molding Systems
57, No.7, July 1999, p.6-7
SPORTING CHANCE WITH NYLON RESINS
Karsten Manufacturing achieves exact swing weight in
the new Ping ISI titanium golf club with club-head plugs
moulded from LNP’s Thermocomp HSG, a high-specificgravity
nylon 6 composite. The plugs are all the same
size, the company just uses different densities of
Thermocomp HSG to provide the different weights. The
Crow Blade hockey skate blade features a custom alloy
steel blade cradled in a holder moulded from Bayer’s
Durethan BC 402 nylon 6 resin.
LNP ENGINEERING PLASTICS; BAYER CORP.
USA
Accession no.743029
Item 101
Polymer Recycling
3, No.4, 1997/1998, p.311-23
POLYURETHANES RECYCLING IN EUROPE
Weigand E; Strobbe G
ISOPA
An overview is presented of the recycling of polyurethanes
in Europe with reference to recycling methods, product
sectors, and quantities. The recycling of polyurethane with
respect to individual market segments covers the furniture
and bedding, building and construction, appliances,
automotive, and leisure sectors. 18 refs
EUROPE-GENERAL
Accession no.742802
Item 102
Materiaux & Techniques
87, Nos.1/2, Jan./Feb.1999, p.61
French
PVC WATERPROOFING MEMBRANES
A brief account is given of a project for the renovation of
a sports stadium in Lyon using Sarnafil S 327 PVC
waterproofing membranes.
SARNAFIL SRL; SOPREMA SA
EUROPEAN COMMUNITY; EUROPEAN UNION; FRANCE;
WESTERN EUROPE
Accession no.742547
Item 103
Adhesives & Sealants Industry
6, No.5, June/July 1999, p.50-1
FAST SETTING EPOXY HELPS GIVE ROSE
BOWL A 20 MILLION DOLLAR FACELIFT
The Rose Bowl Commission, which owns and operates
the historic stadium in Pasadena California, recently
decided on a 20 million US dollars facelift for the facility.
The updates included the installation of 42,000 customdesigned
seats to replace traditional bleacher bench
seating in certain sections of the stadium. Camatic, an
Australian-based seat-manufacturing company with US
facilities, was selected to provide the seats. The seating
manufacturer used Power-Bolt anchors and the Power-
Fast Epoxy Injection Gel System from Powers Fasteners
to install the seats. Camatic’s contractor, Ainslie, used
the Power-Fast epoxy system to anchor two bolts that
hold the top of the seating standard. Details are given.
CAMATIC PTY.LTD.; POWERS FASTENERS INC.;
AINSLIE CO.
AUSTRALIA; USA
Accession no.741818
© Copyright 2001Rapra Technology Limited 39

References and Abstracts
Item 104
Urethanes Technology
16, No.3, June/July 1999, p.26-27
UK SURFERS BREAK FREE - THANKS TO
LOCAL FIRM’S NEW SURFBOARD MAKING
PROCESS
White E
Surfers in the UK now have access to what may be the
best surfboard foam available anywhere, following 18
months hard slog by a small Redruth, Cornwall-based
producer, Boatshed. And wave riders in the USA and other
regions may also be able to use the Cornwall-developed
PU material soon if Boatshed’s ideas about franchising the
technology, plus current talks on a joint venture in the USA,
are successful. Boatshed’s research and development efforts
have led to the successful development of a super-white,
highly compression resistant PU foam based on MDI,
together with a foam delivery process - all trade named
Homeblown - for making surfboard blanks. Surfboards are
hand-made from the blanks by craftsmen, and then coated
with a transparent glass fibre-reinforced polyester resin.
Details are given.
BOATSHED LTD.
EUROPEAN COMMUNITY; EUROPEAN UNION; UK;
WESTERN EUROPE
Accession no.741773
Item 105
Plastverarbeiter
49, No.10, Oct.1998, p.118-20
German
SIGNALS POINT TO GROWTH
The article is based on a paper by Bayer AG. In 1997
more than 7 million tonnes of PU were produced. 70% of
this went into four industries: furniture and mattresses,
automotive, construction and technical isolation. The
turnover of Bayer’s PU business in 1997 was DM4 billion,
an 11% increase over 1996. For the first half of 1998 a 5-
6% increase in turnover over the first half of 1997 is
expected. More than a fifth of the total European PU
consumption takes place in Germany. New developments
using PU include automotive bumpers with 1.5mm thick
PU outer layer made using RIM, snowmobile bonnets,
snowboards and inline skates.
BAYER AG
WORLD
Accession no.739964
Item 106
Machine Design
71, No.12, 17th June 1999, p.50-4
CHAMPIONS OF INNOVATION
Edited by: Parks E
Innovative designs for sports equipment are described as
they compete for the NASDAQ-AMEX Sports Product
of the Year. Described are a snowboard on wheels for
grass and asphalt surfaces, a helmet which accommodates
a ponytail, a stroke coach for baseball, a grip for baseball
bats which gives more control, and the Skyball raquet
and ball game.
USA
Accession no.739869
Item 107
Machine Design
71, No.12, 17th June 1999, p.52-3
GRAND SLAM DESIGNS
The design and manufacture is described of baseball bats,
balls and catch mits designed for younger players. The
barrel of the bat is stretch blow moulded from PETP, filled
with air and plugged with PVC. The ball is a compression
moulded rubber core with polyurethane foam on the
outside. One type of glove, the Glove Radar incorporates
a velocity sensor to measure the speed of the ball just
before it is caught, whilst another, the Lucky Catch Cap,
can be transformed from a cap to a catch mit.
ODDZ ON INC.; SPORTS SENSORS INC.
USA
Accession no.739868
Item 108
Rubber and Plastics News
28, No.18, 5th April 1999, p.38
RUBBER KEY IN DOZEN GOLF BALL
INTRODUCTIONS
Van Benthuysen R
This article highlights new golf balls filled with tungsten,
which cuts down on other fillers and makes the core of
the balls more rubber-rich. A dozen new balls have been
introduced this year by Dunlop/Maxfli and by Spalding.
Background details on both companies are also included.
SPALDING; DUNLOP/MAXFLI
USA
Accession no.739633
Item 109
Materials World
7, No.7, July 1999, p.403-5
CARBON GOES FOR GOLD IN THE 2000
OLYMPICS
Commander M
When you are sailing in a one-design class of boat,
finding the extra edge over the competition is hard.
Even so there are one or two areas where an individual
sailor can bring technology to bear to his or her
advantage. In the Laser dinghy, about the only scope
is with the tiller and tiller extension. It is now becoming
increasingly common for both these items to be made
in CFRP rather than the traditional aluminium that is
sold with every new boat.
C2 COMPOSITES
40 © Copyright 2001 Rapra Technology Limited

References and Abstracts
EUROPEAN COMMUNITY; EUROPEAN UNION; UK;
WESTERN EUROPE
Accession no.739245
Item 110
Plastics Engineering
55, No.6, June 1999, p.7
INJECTION MOULDED PP BOAT IS
LAUNCHED
Walker Bay has designed a multipurpose, affordable boat
that is easily converted from rowboat to sailboat to
motorboat. It is light and compact. The boat is injection
moulded using Pro-fax SG-719 UV-stabilised, 20-melt
flow, high-impact PP copolymer from Montell
Polyolefins.
WALKER BAY BOATS
USA
Accession no.739214
Item 111
Plastics Engineering
55, No.6, June 1999, p.7
REDESIGN BRINGS POOL GAME WITHIN
CONSUMERS’ REACH
A swimming pool basketball set was redesigned to reduce
its volume, weight and price. The entire backboard,
support system and base are rotomoulded from UV-treated
LLDPE to eliminate the potential for rust and cracking
caused by sunlight, while ensuring longevity under severe,
outdoor conditions.
MEESE ORBITRON DUNNE CO.
USA
Accession no.739213
Item 112
Reinforced Plastics
43, No.7/8, July/Aug.1999, p.56-7
TVR AND SCOTT BADER - A WINNING
COMBINATION
Riddle C
Scott Bader Co.Ltd.
Scott Bader has supplied materials for the manufacture
of the reinforced plastic bodies of TVR sports cars for
more than 20 years and the two companies have formed
a close partnership. All mouldings are produced using
hand lay-up techniques. Scott Bader’s development of a
fully sandable gel coat provided TVR with a product
ideally suited to its processing needs. The Crystic resin
used to produce bodies, doors, bonnets and boot lids has
cure characteristics designed to achieve stability rapidly,
thus preventing distortion.
TVR ENGINEERING LTD.
EUROPEAN COMMUNITY; EUROPEAN UNION; UK;
WESTERN EUROPE
Accession no.737542
Item 113
ACS, Polymeric Materials Science and Engineering.
Vol.76. Conference proceedings.
San Francisco, Ca., Spring 1997, p.329-30. 012
LIQUID CRYSTAL POLYMER FABRIC
REINFORCED POLYMERIC COMPOSITE
MATERIALS
Kim S H; Lim D K; Lee S G; Choi Y Y
Hanyang,University; Chungnam,National University
(ACS,Div.of Polymeric Materials Science & Engng.)
High performance fibre reinforced polymeric
composite materials provide various advantageous such
as high strength, high modulus, light weight,
dimensional stability and weather resistance, and the
polymeric composites are widely used in aerospace,
electronics, automotive and sports goods industries.
Wholly aromatic copolyester liquid crystal polymer
(LCP) fibres have attractive properties such as high
modulus, high strength, excellent impact absorption,
solvent resistance and reasonable processing
temperature. Polyimides (PIs) are thermo-oxidatively
and dimensionally stable and retain high mechanical
strength at temperatures beyond the degradation of
many other polymers. Short LCP fibre-reinforced
polyimide composite materials have been studied.
However, they cannot provide excellent mechanical
properties caused by breakage of matrix polymer at
the fibre crossover points. LCP fabric, rather than short
fibre, is applied to the polymeric composite system in
order to exert maximum strength of the LCP fibre
without breakage at the fibre crossover points. The
physical properties of composite materials are
dominated by adhesion between interface of the
reinforcement and matrix polymer. The LCP fabric has
poor adhesion to polyimide; such poor adhesion
between them is a major problem for production of high
strength and high temperature composite materials.
Emphasis is placed on the improvement of surface
adhesion. 4 refs.
KOREA
Accession no.737073
Item 114
Industria della Gomma
42, No.9, Nov.1998, p.48-52
Italian
BOAT USERS’ DESIRE FOR GREATNESS
A review is made of boats featured at the 1998 Genoa
Boat Show, including models constructed in plastics,
coated fabrics and glass fibre-reinforced composites and
large hybrid structures combining rigid and inflatable
components. Statistics are presented for the Italian boat
market.
PLASTIMAR; GOMMONAUTICA; MERCURY
MARINE; MOTONAUTICA DONATO; YAMAHA;
ITALBOATS; MAR.CO; MURSIA; ARIMAR;
PLASTIMER
© Copyright 2001Rapra Technology Limited 41

References and Abstracts
EU; EUROPEAN COMMUNITY; EUROPEAN UNION; ITALY;
JAPAN; WESTERN EUROPE; WESTERN EUROPE-GENERAL;
WORLD
Accession no.736277
Item 115
Plastiques Modernes et Elastomeres
50, No.8, Nov.1998, p.57-9
French
FASHION AND MATERIALS: PLASTICS WEAR
WELL
Topuz B
Applications of plastics in fashion and related markets
including clothing, spectacles, fancy goods and perfume
packaging are examined. Developments by a number of
plastics processors and materials suppliers are reviewed.
VEINIERE; MAZZUCHELLI CELLULOIDE SPA;
POLYMIX; EMS CHEMIE AG; NOVA CHEMICALS;
ORPHEL; VERNICOLOR; GUMMIWERK
KRAIBURG GMBH; CEBE; BOLLE PLASTICS;
REGE; BERTHET-BONDET
EUROPEAN COMMUNITY; EUROPEAN UNION; FRANCE;
GERMANY; ITALY; SWITZERLAND; USA; WESTERN EUROPE
Accession no.736249
Item 116
High Performance Textiles
June 1999, p.2
HEATING ELEMENTS
A carbon fibre fabric called Gorix is being used to make
a range of heating elements. The new material is
inherently conductive and can be heated with low voltage
electricity. The base fabric, which also contains a
polymeric component, may be either laminated or
encapsulated with other materials to produce a range of
different products, called Infra Therm, for various enduses.
Gorix fabrics have been incorporated in diving suits
and used as a heat-treatment to promote healing following
injuries to animals.
GORIX LTD.
EUROPEAN COMMUNITY; EUROPEAN UNION; UK;
WESTERN EUROPE
Accession no.734188
Item 117
Machine Design
71, No.9, 6th May 1999, p.72
BOUNCING OFF THE WALLS
The Indianapolis Motor Speedway is experimenting with
an energy-dissipating safety barrier on its track. This
article supplies details of the barrier, which is called the
polyethylene energy-dissipating system (PEDS). It
consists of 5-ft-long, half-inch thick overlapping highdensity
polyethylene impact plates over 16-in. diameter
cylinders of the same material, all bolted together.
Theoretically, when a car strikes the impact plate, the
cylinders compress, reducing the impact against the wall
behind it. The flexible material then nearly returns to its
original shape.
USA
Accession no.734131
Item 118
Reinforced Plastics
43, No.5, May 1999, p.22/7
HOW TO SELECT A CORE MATERIAL
Dohn G; O’Meara R
Baltek Corp.; ROM Development Corp.
The variety and quality of core materials available has
increased greatly over the last decade. This article explains
the factors which must be taken into account when
selecting the best structural core material for an
application. It considers the subject under the headings:
core types, how a core works, controlling the density, a
high-speed power boat, a Corvette sports car, a fast ferry
boat, a recreational vehicle, and correct core selection.
DET NORSKE VERITAS; AMERICAN BUREAU OF
SHIPPING; GENERAL MOTORS; HYDRO TECH
EUROPEAN COMMUNITY; EUROPEAN UNION; UK;
WESTERN EUROPE
Accession no.733570
Item 119
PPG Connection
1, No.1, May 1999, p.8-9
RIDING THE WAVE OF SUCCESS
Thanks to partnering with PPG Fiber Glass, more
companies and their products are attracting consumer
attention and reaching new levels of achievement. PPG
provided Core Materials with a roving which allowed
Core to consistently produce hull and deck assemblies
for personal watercraft that met their customer’s
requirements. Montell turned to PPG for assistance in
developing fibre glass reinforcements for Hivalloy
polyolefin alloy resins. PPG responded with a new type
of fibre glass that was thinner and coated with a sizing
that bonded easily with the Hivalloy material.
PPG INDUSTRIES FIBER GLASS
USA
Accession no.732601
Item 120
Revue Generale des Caoutchoucs et Plastiques
No.771, Oct.1998, p.91/7
French
SPORT: THERMOPLASTIC ELASTOMERS IN
GOOD FORM
Poyer O
Elf Atochem SA
Applications of thermoplastic elastomers in sports
footwear and clothing and different types of sports
42 © Copyright 2001 Rapra Technology Limited

References and Abstracts
equipment are reviewed. Properties of importance in such
applications are examined and compared for PU, etherester
copolymer and ether-amide copolymer based
thermoplastic elastomers.
EUROPEAN COMMUNITY; EUROPEAN UNION; FRANCE;
WESTERN EUROPE
Accession no.732496
Item 121
Composites-French/English
No.32, March/April 1999, p.19-22
English; French
CARBON FIBRE: A PRODUCT THAT IS
BECOMING MORE WIDESPREAD
The use of carbon fibre is developing rapidly, with world
consumption at about 15,000 metric tonnes tpa in 1998.
Formerly a high tech product, carbon fibre is becoming
more or less internationally widespread, depending on
the sector or activity and the geographic area. The market
for carbon fibre grew rapidly from 1980 to 1992 (more
than 10% per year), before stagnating somewhat from
1992 through 1996. It increased again in 1997, varying
according to the area of activity: aeronautics, sports and
leisure, industrial applications, or the aerospace industry.
Some statistics for these markets are presented.
WORLD
Accession no.731676
Item 122
Plastverarbeiter
48, No.4, April 1997, p.98-9
German
STRONG IN COMPOSITES
Products from composite material and reinforced plastic
are light, durable and fracture-proof. Furthermore, these
materials open up new dimensions for construction and
design in many applications because of further special
properties. The Finnish firm of Exel Oy is counted among
European market leaders in composite material technology
and its financial performance is analysed here. It has a
branch in Duesseldorf, Germany. Based on a broad range
of composite materials, the product choice covers items
from tailor-made individual applications to mass-produced
goods. The main markets are in sport, leisure and industry.
Detailed discussion of applications and products covers
plastics reinforced with glass, carbon and aramid fibres,
combining matrix substances like polyester, vinyl ester or
epoxide resins, especially in new applications such as radio
telescopes in the French Alps, building materials, approach
lighting at airports and household cleaning utensils.
Properties are examined regarding their ability to withstand
corrosion, heat, weathering and water.
EXEL OY
EUROPE-GENERAL; EUROPEAN COMMUNITY; EUROPEAN
UNION; FINLAND; FRANCE; GERMANY; SCANDINAVIA;
WESTERN EUROPE
Accession no.730513
Item 123
Plastverarbeiter
48, No.4, April 1997, p.26
German
ICE-COLD AND YET ELASTIC
Topics centre on modified PA 6 and PA 6,6 regarding their
industrial applications. In recent years individual and
general safety standards have led to unstoppable,
continuous research. Correspondingly, the performance
of materials has to fit the defined properties of end
products from a wide range of sectors like sports gear,
games equipment, casings and handles for electrical tools,
as well as automotive applications such as shock absorbers
and shock-proof cog wheels. Discussion revolves around
these applications as well as price, performance and
developments in elastomers, including examples like
fixing clips in cars produced by Radicinovacips of
Chignolo d’Isola, Italy.
RADICI NOVACIPS
EUROPE-GENERAL; EUROPEAN COMMUNITY; EUROPEAN
UNION; GERMANY; ITALY; WESTERN EUROPE
Accession no.730497
Item 124
Utech Asia ’99. Conference proceedings.
Singapore, 16th-18th March 1999, Footwear Paper 8.
43C6
FUTURE TECHNICAL CHALLENGES FOR THE
PU INDUSTRY IN ATHLETIC FOOTWEAR
PRODUCTION
Alley L; Nichols G
Nike Inc.
(Crain Communications Ltd.)
PU resins are used in three application areas for athletic
footwear: midsole foam, soft backing foams and moulded
plastic components. Of these, midsole foam is the largest
market for PU resins. Over recent years, the proportion
of midsoles produced with PU has declined relative to
other construction technologies. The reasons for this
decline are discussed. The challenges facing the PU
industry to regain the lead for athletic footwear midsole
production offer as many opportunities as they do
obstacles.
VIETNAM
Accession no.729019
Item 125
Automotive Engineer
24, No.4, April 1999, p.68-70.
RESPONSIBILITY THAT CAN’T BE DUMPED
Jacobson J
The problem of waste disposal for scrap tyres is discussed
in the light of a forthcoming EU directive to be fully
implemented in 2002 which will ban the landfilling of
tyres. The many alternative ways of reducing levels of
scrap tyres by recycling are examined, including marine
© Copyright 2001Rapra Technology Limited 43

References and Abstracts
applications, road noise abatement, energy recovery
schemes, and sports and road surfacing.
EUROPE-GENERAL
Accession no.726354
Item 126
Machine Design
71, No.5, 11th March 1999, p.64-5
POLYMER BEARINGS KEEP A SPORTS CAR
LEAN
Zalud T
Advantages of polymer bearings from Igus Inc. are
described, as used in the design of a sports car from Carrol
Shelby. As well as weight reduction, the self-lubricating
bearings are able to withstand temperatures and are
corrosion resistant. Bearing applications on the Shelby
series 1 are described.
IGUS INC.
USA
Accession no.726334
Item 127
Kunststoffe Plast Europe
89, No.2, Feb. 1999, p.31-4. (Translated from
Kunststoffe 89 (1999), 2, pp.95-9).
FIBRE COMPOSITE MOUNTAIN BIKE
Ziegmann G; Hintermann M
Clausthal,Technical University; Alusuisse Airex AG
The design and manufacture is described of a fibre
composite mountain bike which is given as an example
of a strategy for the development of highly integrated
structures. The many possibilities that exist for integrating
different functions in a structure which is produced in a
single production operation are discussed in this full
suspension mountain bike example, which was the result
of a Eureka project. Consideration is given to the
requirements of the components and the process, and
factors determining the selection of the process and
materials used are examined. 14 refs.
EUROPEAN COMMUNITY; EUROPEAN UNION; GERMANY;
SWITZERLAND; WESTERN EUROPE
Accession no.726069
Item 128
Reinforced Plastics
43, No.3, March 1999, p.38-41
LARGE TOW CARBON FIBRE BENEFITS
SPORTING GOODS
McConnell V
The sporting goods market is a key beneficiary of the
cost effectiveness of large tow carbon fibre. In 1998,
Aldila used large tow carbon fibre in approximately 50%
of all its golf shafts, versus 30% in 1997. The company’s
primary fabrication method is roll wrapping, although it
has had the capability of filament winding its shafts since
1992. Creative Composites developed prototypes of a
large tow carbon fibre/epoxy suspension assembly to
replace the standard metal parts in snowmobiles.
CREATIVE COMPOSITES; ALDILA INC.
USA
Accession no.725997
Item 129
Reinforced Plastics
43, No.2, Feb.1999, p.36-8
FLETCHER STRIVES FOR SUCCESS
THROUGH COMPLETE SOLUTIONS
Gilby J
Fletcher International Products has evolved to become a
highly competitive company in the European composite
sports boat market, selling around 1000 GRP boats a year.
Diversification outside of boats began with the task of restyling
the three-wheeled Reliant car which was taken on
by Fletcher during 1998. The company also supplies GRP
shower trays to Armitage Shanks and engine covers to JCB.
FLETCHER INTERNATIONAL PRODUCTS PLC
EUROPEAN COMMUNITY; EUROPEAN UNION; UK;
WESTERN EUROPE
Accession no.725976
Item 130
Rubber and Plastics News
28, No.16, 8th March 1999, p.29
AMERICANS SPEND MORE ON SPORTING
GOODS IN ’98
US spending on sporting goods equipment rose slightly
in 1998, but gains in the equipment sector were offset by
a 6.3% drop in purchases of athletic footwear. Consumer
spending on athletic footwear fell to 13.8bn US dollars
last year. Overall spending on sports equipment rose 1.7%
to 7.1bn US dollars. Sales this year are expected to rise
about 2.6%.
USA
Accession no.724478
Item 131
Injection Molding
7, No.1, Jan.1999, p.87/90
GOLF GAME NOT ON PAR? DON’T BLAME
THE BALL
Kirkland C
This article provides a company profile of Wilson Sporting
Goods Co. of the USA, one of the top three large-volume
manufacturers of golf balls in the world today. It discusses
scrap rates, business practices, employee turnover,
materials, training, and the company’s plant at Humboldt,
Tennessee.
WILSON SPORTING GOODS CO.; CONAIR
USA
Accession no.723638
44 © Copyright 2001 Rapra Technology Limited

References and Abstracts
Item 132
Adhesive Technology
16, No.1, March 1999, p.30-1
SHOE BUSINESS
Albus S
Bayer AG
The use of adhesives in shoe manufacturing is examined,
and problems associated with bonding are discussed, with
particular reference to hydrolysis resistance and heat and
moisture resistance. Water-based adhesives are claimed
to offer advantages over solvent-based, hot melt and
reactive systems, and their use is described.
EUROPEAN COMMUNITY; EUROPEAN UNION; GERMANY;
WESTERN EUROPE
Accession no.723042
Item 133
Gummibereifung
72, No.3, March 1996, p.93-5
German
NEW SPORTCONTACT IS NOW MOVING INTO
THE REPLACEMENT MARKET
Schmidt P
The Continental test track at Catalunya in Spain is the
focus for a detailed review of the new ContiSportContact
tyre. Test results are analysed regarding roadholding in
wet conditions, cornering and braking. It is compared with
the earlier CV/CZ 91 which has been on the market since
1989. The new ContiSportContact is fitted on the new
vehicle production line by car manufacturers such as
Porsche, Audi, BMW and Mercedes. Areas of detailed
examination include noise reduction, tyre ripple design,
asymmetrical tread pattern, and shoulder abrasion.
CONTINENTAL; PORSCHE; AUDI; BMW;
MERCEDES
EUROPE-GENERAL; EUROPEAN COMMUNITY; EUROPEAN
UNION; GERMANY; SPAIN; WESTERN EUROPE
Accession no.721817
Item 134
Revue Generale des Caoutchoucs et Plastiques
No.768, May 1998, p.30-3
French
STADE DE FRANCE: PLASTICS IN THE FINAL
Delannoy G
An examination is made of applications of plastics in the
Stade de France, a football stadium constructed for the
1998 World Cup in France. An underground PVC
geomembrane produced by Alkor Draka was installed as
a barrier to gases permeating from the site, which was
previously occupied by a factory operated by Gaz de
France. PVC sheeting produced by Braas was used in
construction of the roofing, and the stadium seating was
injection moulded by Grosfillex in a UV stabilised
propylene copolymer.
ALKOR DRAKA; FILLON; SMAC ACIEROID SA;
GROSFILLEX; BRAAS GMBH
EUROPEAN COMMUNITY; EUROPEAN UNION; FRANCE;
GERMANY; WESTERN EUROPE
Accession no.721774
Item 135
Materie Plastiche ed Elastomeri
No.10, Oct.1996, p.570-3
Italian
STAR IN THE NORTH-EAST
Latorre C
Properties of the Apistar series of rubber-modified
polyamide compounds produced by API Applicazioni
Plastiche Industriali of Italy are examined, and applications
of these materials in the manufacture of ski boots and inline
roller skates are described. Other materials in the
Company’s range are reviewed, and turnover, employment
and production capacity figures are presented.
API APPLICAZIONI PLASTICHE INDUSTRIALI;
ALFAPLASTIC
EUROPEAN COMMUNITY; EUROPEAN UNION; ITALY;
WESTERN EUROPE
Accession no.721746
Item 136
Gummibereifung
70, No.9, Sept.1994, p.45-6
German
CONTINENTAL AIM TO PROVE COMPETENCE
WITH RACING TYRES
Schmidt P
Truck racing, the only motor sport sponsored by
Continental, is a way of proving the performance of the
tyres. The HS 41-5 is constructed from a standard carcass
and after being used for racing can either be retreaded or
fitted to a truck for normal road use.
CONTINENTAL AG
EUROPEAN COMMUNITY; EUROPEAN UNION; GERMANY;
WESTERN EUROPE
Accession no.721581
Item 137
Macplas International
No.1, Feb. 1999, p.74
SPORTING TPU
The properties of thermoplastic polyurethanes which make
them suitable for use in sports equipment are examined,
and typical applications are discussed. Their toughness and
durability make them suitable for use in bladders for balls,
for bicycle helmets, in fabric laminated products such as
scuba buoyancy compensators, and as the scuff resistant
layer for the bottom of inflatable pontoon-style boats.
JPS ELASTOMERICS CORP.
USA
Accession no.720722
© Copyright 2001Rapra Technology Limited 45

References and Abstracts
Item 138
Macplas International
Nov. 1998, p.80-1
ELASTOMERS AND POLYURETHANES FOR
FOOTWEAR
A review is presented of the materials and machinery
exhibited at Simac 98 for use in the production of
footwear. In particular, the use of polyurethanes is
described, and details are also given of the use of
polyolefin elastomers in footwear foams, industrial and
outdoor boots and casual and sports shoes, where these
materials are claimed to offer the highest processing and
performance value.
EUROPEAN COMMUNITY; EUROPEAN UNION; ITALY;
WESTERN EUROPE
Accession no.720566
Item 139
Kunststoff Journal
29, No.1, Feb.1995, p.28-30
German
BRIGHTER SIDE OF RECYCLING
Examples of products made from recycled plastics are
reviewed. In addition to the products made
traditionally from recycled materials, such as park
benches and noise insulation walls, attention is also
directed at rain water collectors made from
polyethylene recyclate, the AEG vacuum cleaner
made from 40% recycled plastic, gymnasium and
sports mats made from recycled rubber and plastic,
and refuse containers made from recycled PE. Articles
from this journal can be requested for translation by
subscribers to the Rapra produced International
Polymer Science and Technology.
EUROPEAN COMMUNITY; EUROPEAN UNION; GERMANY;
WESTERN EUROPE
Accession no.717072
Item 140
Gummibereifung
72, No.1, Jan.1996, p.40
German
EX-WORLD CHAMPION NIKI LAUDA IS
RUNNING IN HIGH-TECH TYRES
Mutz K
The performance of Goodyear’s Eagle F1 GS Fiorano is
reviewed as it was used on the Ferrari F 50. The
cooperation with Ferrari is discussed regarding the
development of this tyre and fitting it to high-performance
sports cars as they come off the assembly line. The results
of tests in Fiorano are examined including details of
performance on the track, traction, directional stability,
handling, tread pattern and acceleration. Other aspects
discussed cover high speed and grip as well as the
technology transfer from Formula 1 to the development
of tyres for the road.
GOODYEAR; FERRARI
EUROPEAN COMMUNITY; EUROPEAN UNION; GERMANY;
ITALY; WESTERN EUROPE
Accession no.716450
Item 141
Revista de Plasticos Modernos
75, No.501, March 1998, p.292-3
Spanish
MANUFACTURE OF MONOCOQUE BICYCLE
FRAMES IN CARBON FIBRE
Moles E
Internacional de Composites SA
An account is given of a project undertaken by
Internacional de Composites of Spain to develop a carbon
fibre-reinforced epoxy resin monocoque bicycle frame.
EUROPEAN COMMUNITY; EUROPEAN UNION; SPAIN;
WESTERN EUROPE
Accession no.715858
Item 142
Revista de Plasticos Modernos
75, No.501, March 1998, p.271-4
Spanish
MATHEMATICAL MODEL OF THE RIOJA ’95,
THE BOAT TAKING PART IN SPAIN’S
CHALLENGE FOR THE AMERICAS CUP:
THEORETICAL AND EXPERIMENTAL
VALIDATION
Cuartero J; Perez A; Lopez M; Castejon L
Zaragoza,University; Bazan E.N.
An account is given of the development and validation
of a finite element model to simulate the mechanical
behaviour of the Rioja ’95, a boat developed to represent
Spain in the 1999 Americas Cup. Materials used in the
construction of the boat include unidirectional and
bidirectional carbon fibre-reinforced composites,
honeycomb structures, titanium and steel. 6 refs.
EUROPEAN COMMUNITY; EUROPEAN UNION; SPAIN;
WESTERN EUROPE
Accession no.715853
Item 143
Materie Plastiche ed Elastomeri
No.4, April 1998, p.188-93
Italian
FLYING BICYCLES
Modini G; Pinarello F; Borghetto E; Giachi M; Diani R
Cicli Pinarello Srl
An examination is made of methods used by Cicli
Pinarello of Italy in the design and manufacture of carbon
fibre composite frames for racing bicycles. 1 ref.
COLNAGO E.,& C.,SRL
EUROPEAN COMMUNITY; EUROPEAN UNION; ITALY;
WESTERN EUROPE
Accession no.715825
46 © Copyright 2001 Rapra Technology Limited

References and Abstracts
Item 144
Chemical and Engineering News
77, No.7, 15th Feb.1999, p.70
WHAT’S THAT STUFF?
Reisch M
Spandex is a long-chain synthetic polymeric fibre. Soft
and rubbery segments of polyester or polyether polyols
allow the fibre to stretch up to 600% and then recover its
original shape. Hard segments, usually urethanes or
urethane-ureas, impart tensile strength. DuPont’s spandex
fibre, marketed as Lycra, has annual sales of more than
1.5bn US dollars. Ladies’ underwear is still the foundation
of the spandex business, but the fibre now features in
sports clothing.
DUPONT CO.
USA
Accession no.715637
Item 145
Nippon Gomu Kyokaishi
70, No.9, 1997, p.499-508
Japanese
ARTIFICIAL TURF AND RUBBER
Iwasaki K
Sumitomo Rubber Industries
The cushioning effect, slip and ball bounce properties of
artificial sports surfaces made from artificial plastic turf
and rubber chips are discussed. 7 refs. Articles from this
journal can be requested for translation by subscribers to
the Rapra produced International Polymer Science and
Technology.
JAPAN
Accession no.713612
Item 146
Engineering Design
No.3, 1998, p.6-8
JUST STEP IN, PUSH DOWN, AND GO
Luthi J
Dolder AG
Fritschi has developed the easy-to-open, easy-to-close
Crocodile range of snowboard bindings, using three
DuPont engineering polymers for almost all of the
structural components of the binding. For example, the
hi-back and straps are made of Hytrel thermoplastic
polyester elastomer, the base is made of Zytel nylon and
Delrin acetal is used for the two buckles.
FRITSCHI AG
SWITZERLAND; WESTERN EUROPE
Accession no.713189
Item 147
ACS Polymeric Materials Science and Engineering.
Fall Meeting 1998. Volume 79. Conference
proceedings.
Boston, Mas., 23rd-27th Aug.1998, p.126-7. 012
ADVANCED THERMOPLASTIC
VULCANISATES BONDABLE TO NYLON
Sadeghi R; O’Connell M; Clare D
DSM Thermoplastic Elastomers Inc.
Power tools, electronics, appliances and sports goods
demand soft-touch surfaces for ergonomics, personal
comfort and styling. In these applications, low hardness
adhesive thermoplastic vulcanisates (TPVs) can be
utilised. TPVs based on PP and EPDM are non-polar in
nature, which makes their adhesion to polar materials such
as nylon a considerable challenge. In the past, mechanical
interlocking was used to produce overmoulded TPVs onto
the polar substrates used in these applications. Today, a
new generation of TPVs can bond to nylon 6, 66, nylon
blends with ABS and/or PP. These materials can be
processed via insert injection moulding, two-shot injection
moulding, and coextrusion. These nylon bondable grades
are based on Sarlink 3000 series technology and offer
characteristics similar to the 3000 series products. These
new products offer excellent temperature and fluid
resistance properties similar to the standard TPVs. The
concept of a new TPV bondable to nylon offers design
engineers vast new options in designing combinations of
soft skin to hard segment applications.
USA
Accession no.712621
Item 148
ACS Polymeric Materials Science and Engineering.
Fall Meeting 1998. Volume 79. Conference
proceedings.
Boston, Mas., 23rd-27th Aug.1998, p.25-6. 012
POLYMERISATION AND DYNAMIC TESTING
OF DIFUNCTIONAL ACRYLIC METAL SALTS
IN A POLYBUTADIENE GOLF BALL CENTRE
Kennedy T J
Spalding Sports Worldwide
Golf ball construction has changed many times during
the course of history. The cover has changed from leather
to gutta percha rubber to balata rubber to ionomer blends.
The golf ball core has changed from goose feathers boiled
in oil to solid gutta percha to a wound centre to a solid
rubber centre. Emphasis is placed here on the golf ball
centre, in particular, the solid golf ball centre and the
acrylates that form the centre’s crosslinked structure. It
is well known that the modern solid centre of a golf ball
is a highly crosslinked, high cis polybutadiene rubber that
exhibits exceptional rebound at high speed. The co-agent
that is utilised in the free radical crosslinking of the
polybutadiene is typically zinc diacrylate. The reaction
is initiated with heat and a peroxide, such as dicumyl
peroxide, with reaction exotherm exceeding 400 deg.F.
Experimental data utilising co-agents other than zinc
diacrylate are examined. A surfactant/mixing aid is
incorporated in the reaction to facilitate dispersion of the
reactants. The material utilised here is zinc stearate,
© Copyright 2001Rapra Technology Limited 47

References and Abstracts
selected due to its compatibility with the polybutadiene
rubber formulation. 6 refs.
USA
Accession no.712133
Item 149
Rubber World
219, No.3, Dec.1998, p.33-5
PU RUBBER OUTSOLES FOR ATHLETIC
FOOTWEAR
Ahnemiller J
TSE Industries Inc.
This article examines in detail the use of polyurethane
rubber out-soles in running shoes. Several types of PU
rubber, each with a slightly different chemical make-up
that changes its properties, are discussed and compared.
USA
Accession no.711970
Item 150
Injection Molding
6, No.11, Nov.1998, p.47
DESIGN - NYLON LOST-CORE BIKE WHEEL
IMPROVES ON TRADITION
Sloan J
This article highlights a new development from
Innovations & Composites Inc. of the USA, which was
nine years in the making. The “Thug” is a one-piece
bicycle wheel manufactured from glass-filled nylon using
the lost-core process, that reportedly out-performs and
outlasts traditional aluminium and alloy designs. A full
description is provided.
ALLIEDSIGNAL PLASTICS; INNOVATIONS IN
COMPOSITES INC.
USA
Accession no.711928
Item 151
Benchmark
Jan.1999, p.25
CUSTOM CARBON FIBRE BIKES
A Utah custom bicycle designer is using Algor software
and cutting the cost of high-performance bicycles.
Vacuum bag technology is employed to make composite
rocket motor cases to craft carbon fibres and epoxy into
customised bike frames which are more comfortable and
more aerodynamic than traditional steel, aluminium or
titanium frames.
COMPOSITE ARTS & SCIENCE
USA
Accession no.711256
Item 152
Scrap Tire News
13, No.1, Jan.1999, p.5
SOFTER, STRONGER TURF
NovaTee, a synthetic tee-off green produced from a
patented process that mixes silica sand, vermiculite and
recycled tyre crumb, has been installed all over the world.
SynTenniCo decided to try NovaTee on a larger surface.
Field Turf looks, feels and plays like grass. Recently,
SynTenniCo teamed up with Nike and is now using 10%
Nike Grind from recycled shoes for the infill in Field Turfinstalled
fields.
SYNTENNICO INC.
USA
Accession no.711253
Item 153
IRC ’98. Conference Proceedings.
Paris, 12th-14th May 1998, p.311-7. 012
French
SPORTS APPLICATIONS OF THERMOPLASTIC
ELASTOMERS
Poyet O
Elf Atochem SA
(AFICEP; Societe de Chimie Industrielle)
Applications of thermoplastic elastomers in sports
equipment and sports footwear and clothing are reviewed.
Particular attention is paid to ether-amide block
copolymers, the properties of which are compared with
those of PU and ether-ester copolymer elastomers.
EUROPEAN COMMUNITY; EUROPEAN UNION; FRANCE;
WESTERN EUROPE
Accession no.710625
Item 154
Materials World
7, No.1, Jan.1999, p.10-2
POLYMERS ON THE PISTE
Hill S
Advanced polymer materials being used in skis, boots,
bindings and other associated equipment have been
developed to suit the demanding conditions imposed by
a rapid ride over icy bumps in freezing temperatures.
DuPont’s Delrin 107, a UV-stabilised acetal resin, is being
used in one of the latest forms of acrobatic ski. Zytel,
DuPont’s polyamide 6 and 66 resin, features on
snowboards, while Hytrel thermoplastic elastomer offers
very good flexibility at low temperatures for components
of ski boots and cross-country ski shoes.
DUPONT ENGINEERING POLYMERS
EUROPEAN COMMUNITY; EUROPEAN UNION; FRANCE;
WESTERN EUROPE
Accession no.709435
Item 155
Composites-French/English
No.30, 15th Nov.1998, p.44-6
48 © Copyright 2001 Rapra Technology Limited

References and Abstracts
CARBON FIBRES FOR FILAMENT-WINDING
APPLICATIONS
Carbon fibres are a preferred reinforcement material for
high-performance filament-wound applications. Fibres
produced by Tenax Fibres are used in a wide range of
applications including aeronautics and space, cars and
sailboard masts. Tenax HTS are high-tenacity carbon
fibres with a tensile strength of 3,950 MPa, a tensile
modulus of 238 GPa and elongation at break of 1.5%.
High-strain carbon fibres, Tenax UTS, have a tensile
strength of 4,800 MPa, a tensile modulus of 240 GPa and
an elongation at break of 2.0%.
TENAX FIBERS GMBH & CO.KG
EUROPEAN COMMUNITY; EUROPEAN UNION; GERMANY;
WESTERN EUROPE
Accession no.708838
Item 156
Composites-French/English
No.30, 15th Nov.1998, p.20-1
TRENDS AND DEVELOPMENT OF THE
COMPOSITES INDUSTRY IN TAIWAN
As regards raw material production in Taiwan, there are
four glass fibre manufacturers with a total capacity of
141,000 t/y and 14 polyester companies with a total
capacity of 200,000 t/y. The capacity of the only carbon
fibre manufacturer is 500 t/y. These raw materials meet
the local market demand, except for carbon fibre. The
total GRP/UP production in Taiwan was 45,400 tons in
1997. The main applications are yachts, fishing boats,
bathtubs, panels, cooling towers, tanks and sporting
goods.
TAIWAN
Accession no.708828
Item 157
Tire Business
16, No.15, 26th Oct.1998, p.43
SEARS ENCOURAGES COMMUNITIES TO
RECYCLE
Fedchenko V
Sears, Roebuck and Co.’s Automotive Group has
introduced a programme called Recycling Old Tires Aids
the Environment (ROTATE). The programme is designed
to encourage support within communities to pick up scrap
tyres and recycle them. Crumb rubber produced from
scrap tyres has been used to pave a basketball court and
refurbish playgrounds.
SEARS AUTOMOTIVE GROUP
USA
Accession no.708768
Item 158
Gummi Fasern Kunststoffe
49, No.8, 1996, p.646-51
German
FIBRE-REINFORCED COMPOSITES IN
LEISURE PRODUCTS
Heitz E
The authors discuss the market potential for bicycles
incorporating fibre-reinforced plastics components, and
describe the design and production by resin transfer
moulding of bicycle frames, brakes and other components
from polyester resins, epoxy-vinyl ester resins and
methacrylates. Articles from this journal can be requested
for translation by subscribers to the Rapra produced
International Polymer Science and Technology.
EUROPEAN COMMUNITY; EUROPEAN UNION; GERMANY;
WESTERN EUROPE
Accession no.707983
Item 159
Nippon Gomu Kyokaishi
69, No.4, 1996, p.254-264
Japanese
GOLF BALLS
Hamada A
Sumitomo Rubber Industries
The history of the golf ball, its design and flight
characteristics are discussed. A comparison of the twopiece
windings and modern types of golf balls is given.
Articles from this journal can be requested for translation
by subscribers to the Rapra produced International
Polymer Science and Technology.
JAPAN
Accession no.707017
Item 160
Rubber and Plastics News
28, No.6, 19th.Oct.1998, p.10
TYRES HELP IN-LINE SKATERS GO OFF ROAD
Boyd J
This article supplies details of Rollerblade Inc’s Coyote
all-terrain in-line skate, which innovatively, features three
six-inch pneumatic rubber tyres, rather than the normal,
hard polyurethane wheels. The shock absorption and
traction of the pneumatic tyres enable skaters to go ‘offroad’,
on a variety of surfaces such as dirt paths, wet
surfaces, gravel etc. The innovation gives the skate a
significant competitive edge.
ROLLERBLADE INC.
USA
Accession no.706964
Item 161
Materials & Design
19, Nos.5/6, Dec.1998, p.197-204
THE MODERN OLYMPIC VAULTING POLE
Burgess S C
Bristol,University
© Copyright 2001Rapra Technology Limited 49

References and Abstracts
A vaulting pole is a combined pivot and energy storage
device that enables top pole vaulters to reach heights of
over 6 m. It is described how modern Olympic poles are
highly optimised in terms of material selection and
geometry. The use of modern techniques in composite
production to enable special design features such as
tapered wall thickness and initially bent poles is also
discussed. 4 refs.
EUROPEAN COMMUNITY; EUROPEAN UNION; UK;
WESTERN EUROPE
Accession no.705823
Item 162
Plastics and Rubber Asia
13, No.82, Oct.1998, PU Asia, p.15, contained within
13, No. 82, Oct 1998
SILVER SEATING SITS PRETTY
Sulaiman W
Silver Seating wants to make seats for new Honda cars
being made soon in Guangzhou. The company is confident
that it can get the contract, as it has been making motor
cycle seats for Honda for the last 12 years. Honda will
produce its best selling Civic and City models at the
Guangzhou plant. It is expected to be ready by the end of
the year and will be fully operational early 1998. Silver
Seating makes a wide variety of motor cycle, as well as
bicycle seats for the local market. Most of its production
is for the Honda motor cycle joint venture company,
Wuyang-Honda, to which it supplies over half of its daily
output of 2,000 seats. If Silver Seating wins the Honda
contract it will invest at least RMB40 million to buy new
lines as its facility is not equipped with car seat making
equipment. Some company information is presented.
SILVER SEATING; HONDA MOTOR CO.LTD.;
WUYANG-HONDA
CHINA
Accession no.704725
inadequacy as a light stabiliser, the recycling of battery
cases into sports stadium seats and the improvement of
mixed plastics. Illustrations may be found in Kunststoffe,
85, No.1, 1995, p.81/4.
EUROPEAN COMMUNITY; EUROPEAN UNION; GERMANY;
SOUTH AFRICA; SWITZERLAND; WESTERN EUROPE
Accession no.704438
Item 164
Proceedings of the International Rubber Forum 1994.
Conference proceedings.
Colombo, Sri Lanka, 16th-27th May 1994, p.295-7.
1741-41C1
LATEX ALLERGIES AND THE RUBBER
INDUSTRY
Cacioli P
Ansell Medical (Pvt.)Ltd.
(IRSG)
The most widely discussed topic among the manufacturers
of NR latex medical products today is latex allergy. This
has had a significant impact on the medical rubber goods
industry in recent times and focus is now beginning to
turn on more commonplace items such as balloons, rubber
mats, tyres, etc. Worldwide rubber production from the
rubber tree Hevea brasiliensis has reached six million tpa.
Besides various medical uses, such as surgical gloves,
drainage tubes and dental inserts an increasing number
of everyday products varying from condoms to tyres, to
sports gear and car upholstery are made from NR. It is
estimated that approximately 1% of the general population
and 5-10% of healthcare professionals are latex sensitive.
The prevalence of latex sensitivity among healthcare
workers may be increasing because of the growing use of
latex gloves to decrease the risk of AIDS transmission.
Details are given.
ASIA
Accession no.703977
Item 163
Kunststoffe Plast Europe
85, No.1, Jan.1995, p.24-5
INCREASING THE SERVICE LIFE OF
MOULDINGS CONTAINING RECYCLATE
Pfaendner R; Herbst H; Hoffmann K; Klingert B; Sitek
F; Cooper T
The use of plastics recyclate for long-term applications
generally requires the addition of stabilisers to the
material, in order to achieve the properties required for
the second application. In addition to processing and heat
stabilisation, light stabilisation in particular has to be
considered. Hindered amine light stabiliser (HALS)
compounds or combinations of HALS compounds with
light stabilisers have proved to be particularly suitable
for light stabilisation of recyclates. Aspects examined
include packaging recyclate for outdoor applications,
recyclate from film composites, carbon black’s
Item 165
Kunststoffe Plast Europe
85, No.3, March 1995, p.25-6
BICYCLE FRAMES MADE BY FILAMENT
WINDING USING THERMOPLASTIC
MATRICES
Funck R; Hausmann J
Kaiserslautern,University
Details are given of a study carried out at the Institute for
Composite Materials of the University of Kaiserlautern,
which uses the filament winding process using
thermoplastics in the manufacture of a bicycle frame.
Advantages of the process are described as compared to
using thermosets. Use is made of unidirectional fibrereinforced
pre-impregnated tapes, hybrid fibres and
powder impregnated filaments. The materials supplied
on spools are melted up with the help of a heat source
and deposited on a winding mandrel. Problems associated
50 © Copyright 2001 Rapra Technology Limited

References and Abstracts
with the winding process have been overcome by the
development of the ‘steel belt’ method which is claimed
to yield surfaces with high quality finish and improved
layer consolidation. The technique is used to produce a
set of tubes from nylon 6 reinforced with 55% carbon
fibre. 2 refs.
EUROPEAN COMMUNITY; EUROPEAN UNION; GERMANY;
WESTERN EUROPE
Accession no.703672
Item 166
Plastiques Modernes et Elastomeres
49, No.8, Nov.1997, p.100-3
French
SPORTS AND LEISURE: FROM THE SKATE TO
THE SNOWBOARD
Topuz B
Applications of plastics in sports equipment including
roller skates, snowboards, skis and ski boots are examined.
The world market for such equipment is reviewed, and
turnover figures are presented for French sports equipment
manufacturers Rossignol and Salomon.
ROSSIGNOL; SALOMON SA; BENETTON
SPORTSYSTEM; ADIDAS AG; ELF ATOCHEM SA;
BAYER AG; DECATHLON SA; DU PONT DE
NEMOURS E.I.,& CO.INC.; DYNASTAR; NORDICA
SPA
EUROPEAN COMMUNITY; EUROPEAN UNION; FRANCE;
GERMANY; ITALY; USA; WESTERN EUROPE; WORLD
Accession no.702518
Item 167
Materie Plastiche ed Elastomeri
Nos.11/12, Nov./Dec.1997, p.720-5
Italian
VACUUM INFUSION FOR BOAT HULLS
Modini G
An account is given of the Seemann Composites resin
infusion moulding process and its use by Franchini
Yachts of Italy and North End Composites of the USA
in the manufacture of composite boat hulls. This
technology, owned by Scrimp Systems, uses a high
vacuum to saturate or infuse a dry lay-up of long glass
fibres with a liquid unsaturated polyester, vinyl ester
or epoxy resin which can be cured at room
temperature, followed by lamination on a wooden or
glass fibre-reinforced plastics mould of the type used
in hand lay-up.
FRANCHINI YACHTS; SCRIMP SYSTEMS LLC;
ADVANCED COMPOSITE TECHNOLOGY
CONSORTIUM; NORTH END COMPOSITES;
SEEMANN COMPOSITES; DOW CHEMICAL CO.;
AKZO NOBEL CHEMICALS BV
EUROPEAN COMMUNITY; EUROPEAN UNION; ITALY;
NETHERLANDS; USA; WESTERN EUROPE
Accession no.702508
Item 168
Plast’ 21
No.65, Nov.1997, p.45-6
Spanish
LEISURE: A POWERFUL MARKET FOR
PLASTICS
Applications of plastics in toys and sports equipment are
examined, and economic trends in these markets are
reviewed. Statistics are presented for the consumption of
plastics in these applications in Spain in 1996.
AIJU; INSTITUTO TECNOLOGICO DEL JUGUETE;
ASOCIACION ESPANOLA DE FABRICANTES DE
JUGUETES; ANAIP; CENTRO ESPANOL DE
PLASTICOS
EUROPEAN COMMUNITY; EUROPEAN UNION; SPAIN;
WESTERN EUROPE; WORLD
Accession no.702489
Item 169
BioCycle Journal of Composting & Recycling
39, No.10, Oct. 1998, p.52-3
SHREDDED TIRE MARKET OPTIONS
Gray K
Applications for shredded scrap tyres in the US are
described with reference to specific projects. These
include rubberised asphalt, civil engineering, soil
amendment, playground surfacing and road construction.
The evolution of equipment to cope with a growth in
applications for scrap tyres is also briefly discussed.
USA
Accession no.701408
Item 170
Plastics News(USA)
10, No.30, 21st Sept.1998, p.26
SURFBOARD MAKERS SEEKING PLASTIC
SOLUTIONS
Renstrom R
Rusty Surfboards, a producer of 10,000 surfboards/year,
wants resin makers to upgrade their offerings to the niche
industry. The company is seeking the latest technology
resins that are easy to work with, and offer better clarity
and strength. It claims that large resin companies are
reluctant to get involved with Hexcel’s fabrics group in
Austin, Texas, aggressive in developing a new glass fibre
cloth for surfboards. After twenty years of using the same
fabric, a much stronger weave has been developed that
ensures that the resins did not impregnate the cloth quite
as much. As a result, boards are said to be lighter and
stronger, and the cloth is having a huge impact on the
surfboard industry. Another surfboard maker, Surf
Technologies, is using a licensed European sailboard
technology that involves vacuum forming one skin and
pressure forming the other. The high technology sandwich
concept originated in the aircraft industry. Brief details
are presented.
© Copyright 2001Rapra Technology Limited 51

References and Abstracts
RUSTY SURFBOARDS; SURF TECHNOLOGIES;
FUR CAT SURFBOARDS
USA
Accession no.699933
Item 171
Injection Molding
6, No.10, Oct. 1998, p.96-7
SPORTS AND RECREATION
Sloan J
The US sports and recreational market is examined in terms
of the opportunities for injection moulders. Statistics are
included of sales in the industry, growth rates and forecasts.
Market shares by material show that polypropylene leads
the way as the material most commonly used to mould
products for the sports and recreation market. Trends in
the industry include the need for lightweight, to reduce
costs, and produce more durable thermoplastic injection
moulded parts as replacements for metals.
USA
Accession no.699870
Item 172
Rubber and Plastics News
28, No.4, 21st Sept.1998, p.28/33
IMPACT OF RUBBER SURFACES INCREASES
Moore M
The rubber athletic surface market is hard to quantify.
However, one thing is certain: business is booming. No
industry association issues reports or keeps statistics on
production, and very few surfacing manufacturers will
divulge their financial or production figures. The companies
themselves, and their products and markets, are so different
that they are hard to compare, although the technologies fall
into several basic categories, including: poured-in-place
rubberised pavements, like those produced by No Fault
Industries, Mondo America and Surface America; rubber
tiles and rolls, such as those manufactured by the Surfacing
Products Division of Carlisle Tire & Rubber; soil
amendments that bond turf and rubber, made by companies
like American Rubber Technologies; rubber artificial turfs,
supplied by SafTurf International and DuraTurf, among
others; and crumb rubber top dressing for turf protection,
such as that made by JaiTire Industries. The markets these
companies serve also resist comparison, covering virtually
every field of athletic endeavour - running tracks,
gymnasiums and fitness facilities, skating and hockey rinks,
golf courses, indoor and outdoor athletic fields, children’s
playgrounds and polo and equestrian fields. Details are given.
USA
Accession no.699830
Item 173
Rubber and Plastics News
28, No.4, 21st Sept.1998, p.26-7
SCUBA SALES BUOYED BY AVID DIVERS
Wilson E
Americans spend a lot of time underwater - keeping scuba
diving equipment makers and their rubber materials
suppliers in business. US sales of diving-related goods
made up an estimated 640 million US dollars industry in
1997, according to Gallup Leisure Trends Group.
Equipment accounted for 271 million US dollars of that
amount, and more than half of equipment sales are rubberrelated,
including wet suits, fins, buoyancy devices and
masks, market data show. The primary materials used are
polychloroprene and silicone rubbers. While participation
in diving is not growing particularly fast, the diving
community is seeing the sport’s popularity begin to
broaden and can expect that to continue, says Gallup.
Viewed another way, more than 14 million US adults -
about 8% of the adult population - profess to be active
participants in the sport. Some statistics are presented.
GALLUP LEISURE TRENDS GROUP
USA
Accession no.699829
Item 174
Rubber and Plastics News
28, No.4, 21st Sept.1998, p.20-1
TITANIUM: TENNIS BALLS CAN REAP
BENEFITS
Dawson B
Titanium, the ‘metal of the millennium’ that has taken
sporting goods manufacturing by storm is now appearing
in another product - tennis balls. Already used in golf
clubs, tennis rackets and golf balls for improved product
durability and power, titanium is being added to the rubber
compound mixture of selected new lines of tennis balls
for the same reason. The two leaders in the North
American tennis ball market, Penn Racquet Sports and
Wilson Sporting Goods, are introducing their own
titanium balls this autumn. Phoenix-based Penn, which
boats more than a 50% market share of tennis balls in
North America, began advertising the Penn Championship
Titanium this month. The product should reach store
shelves by October. Wilson, which has a 40% share of
the market, began selling the Wilson Titanium Tennis Ball
in early September. Details are given.
PENN RACQUET SPORTS; WILSON SPORTING
GOODS CO.
USA
Accession no.699828
Item 175
Rubber and Plastics News
28, No.4, 21st Sept.1998, p.13/35
RUBBER IN SPORTS
Davis B
On a wholesale basis, sports equipment is the USA in
1997 accounted for 17.1 billion US dollars in sales - not
including footwear. By comparison, tyre sales were about
52 © Copyright 2001 Rapra Technology Limited

References and Abstracts
20 billion US dollars. Sales of athletic footwear reached
9.5 billion US dollars, which brings the total value of
sports-related ‘hardware’ to almost 30 billion US dollars,
according to the US Sporting Goods Manufacturers’
Association. Some statistics are noted.
US,SPORTING GOODS MANUFACTURERS’ASSN.
USA
Accession no.699825
Item 176
Fussboden Zeitung
No.9, Oct.1994, p.75-88
German
WITH OR WITHOUT GRANULES
Bruhn J
A market survey of 15 synthetic tennis court materials,
made by 5 manufacturers is given. The nature of the
polymers used and of the base fabric, is given in each
case with the manufacturing process, the weight, the
width, the colour, and whether or not granulate is included.
KLW AG; DURA; FULDA GMBH; GIRLOON;
TARKETT PEGULAN AG
EUROPEAN COMMUNITY; EUROPEAN UNION; GERMANY;
WESTERN EUROPE
Accession no.699758
Item 177
Elastomery
1, No.6, 1997, p.27-36
Polish
MATERIAL RECYCLING OF USED TYRES AND
RUBBER WASTE
Capelle G
Hermann Berstorff Maschinenbau GmbH
The recycling of used tyres is still of limited industrial
importance compared with thermal utilisation and dumping
on waste sites. This is probably a result of the limited
possibilities for using the recycled products during the
original product cycle. Products containing fillers of recycled
rubber products are discussed, including insulation materials,
flooring for sports grounds and technical rubber articles of
high volume for low physical stresses. Rubber pellets and
powder produced by the warm grinding process with a large
specific surface are shown to represent a product of high
value. Latex-coating processes are also considered.
EUROPEAN COMMUNITY; EUROPEAN UNION; GERMANY;
WESTERN EUROPE
Accession no.699078
Item 178
Kunststoffe Plast Europe
88, No.9, Sept.1998, p.35-7,1494-6
German; English
WELL PADDED. INJECTION MOULDINGS
FROM CROSSLINKED POLYOLEFIN
ELASTOMER FOAMS
Diegritz W
DuPont Dow Elastomers (Deutschland)
The use of injection-moulded crosslinked polyolefin
thermoplastic elastomer foams in the manufacture of
footwear components and of padding and lining of
sports items is discussed. The advantages of this
material over the traditionally-used EVA are
discussed, with emphasis on low weight, high
elasticity, long service life and comfort-enhancing
damping properties.
EUROPEAN COMMUNITY; EUROPEAN UNION; GERMANY;
WESTERN EUROPE
Accession no.699042
Item 179
Enercomp ’95 International Conference on Composite
Materials and Energy. Conference proceedings.
Montreal, Canada, 8th-10th May 1995, p.765-72. 627-
63Ene
DESIGN, FABRICATION AND STRUCTURAL
EVALUATION OF COMPOSITE VEHICLES IN A
CLASSROOM ENVIRONMENT
O’Toole B J
Nevada,University
(Canadian Association for Composite Structures &
Materials)
Composite vehicle design, including bicycles and small
motorised vehicles, has been incorporated into several
classes at the University of Nevada. Motivation for
vehicle design in the courses was partially driven by
student interest in regional design competitions. The
design, fabrication and evaluation of a complex
composite structure is very difficult to complete in the
span of about nine months, considering that most
students commence with no previous knowledge of
composite materials. An interdisciplinary team
approach to design and fabrication is required to
complete the projects. Three key elements of the teams
are an aerodynamics analysis group, an aerodynamic
structures group and a frame group. Two different
methods are used to fabricate prototype structural
members made with plain weave carbon fabrics and
room temperature curing epoxy resins. Initial stress
analysis using a mechanics of materials approach and
one-dimensional finite element analysis is used which
does not include some geometry details such as cutouts
and inserts. Extra material is added in these areas to
account for the rough analysis. Strain is measured
experimentally in several places on the structure and
compared to the initial stress analysis. More detailed
stress analysis is conducted using three-dimensional
FEA and the structure is redesigned to reduce its
weight. Each year, a new team modifies the previous
design and attempts to make improvements on the
fabrication process. 10 refs.
USA
Accession no.698439
© Copyright 2001Rapra Technology Limited 53

References and Abstracts
Item 180
Materials Challenge - Diversification and the Future.
Volume 40: Book 1. Symposium proceedings.
Anaheim, Ca., 8th-11th May 1995, p.985-8. 627
MAKE OR BUY DECISIONS FOR HIGH
VOLUME COMPOSITE MATERIAL AND
COMPONENT MANUFACTURE
Walker R G
Plastic Developments Ltd.
(SAMPE)
There is increasing worldwide demand and competition
for high volume and quality composite materials and
components for sports goods. Many manufacturers
involved in the chain of converting fibres and resins into
finished components still use labour and skill-intensive
old established processes and equipment more suited to
the low volume aerospace industry. To increase output,
more of the same people and equipment are brought in to
increase market share at lower prices. Without process
improvement geared to high volume, the result can be
reduced control, quality, reliability, and margins. A
turnaround is forecast. Manufacturers who reduce labour
and skill levels by investing in automated process
equipment suited to high volume and quality will be the
winners. This will enable successful make-or-buy
investment decisions involving forward and backward
integration of the production process. These
manufacturers will increase market share with consistent
high quality and margins. Manufacturers that remain with
cheap labour-intensive slower equipment will lose out.
Automated manufacture of high volume and quality sports
goods can be located in the market where there is major
volume demand. Examples of turnkey graphite UD
prepreg machines, automated golf blank manufacture and
automated golf shaft paint finishing illustrate this
inevitable change. 2 refs.
EUROPEAN COMMUNITY; EUROPEAN UNION; UK;
WESTERN EUROPE
Accession no.698189
Item 181
Materials Challenge - Diversification and the Future.
Volume 40: Book 1. Symposium proceedings.
Anaheim, Ca., 8th-11th May 1995, p.935-41. 627
TEXTILE PREFORMS FROM
THERMOPLASTIC TOWPREGS FOR THE
MANUFACTURE OF COMPOSITE SPORTING
GOODS
Holty D W; Greene T L
Custom Composite Materials Inc.
(SAMPE)
Thermoplastic towpregs made by electrostatic powder
coating are useful for the manufacture of textile preforms.
These towpregs can be designed with a high, uniform resin
content. They possess good drape and flexibility; thus
they are ideally suited for processing into braids, woven
fabrics and filament wound preforms. Graphite golf shafts,
tennis racquets, carbon fibre bicycle tubes and
loudspeaker cones are just a few examples of sports/
recreation articles manufactured by moulding and
consolidating parts from thermoplastic textile preforms.
These processes are proving to be economical, and in
addition, the thermoplastic matrix often delivers superior
performance in comparison to the conventional thermoset
composites. 11 refs.
USA
Accession no.698182
Item 182
Materials Challenge - Diversification and the Future.
Volume 40: Book 2. Symposium proceedings.
Anaheim, Ca., 8th-11th May 1995, p.998-1001. 627
COMMERCIAL/INDUSTRIAL APPLICATIONS
FOR COMPOSITES REINFORCED WITH
CONTINUOUS AND CHOPPED HIGH-
PERFORMANCE FIBRES
Burg M; Rasmussen B
Composite Market Reports Inc.; BMR Associates
(SAMPE)
1995 has become another year of decision for
manufacturers of carbon and aramid fibres. Several new
non-aerospace applications, which were in the early
development phase two or three years ago, have either
entered or are now approaching volume production.
Market summaries are presented for such applications as
hybrid composite risers for offshore oil production, new
and retrofit bridge components to improve seismic
damage resistance, injection moulded industrial
components, alternate power systems for vehicles, newdesign
easy-access lightweight buses, rail freight and
passenger cars, and various marine applications. Data are
also presented on the sports equipment likely to use highperformance
fibres in sizable quantities during the next
ten years. Those current and new applications which are
most likely to grow and eventually to exceed current
reinforcement fibre production capacities are identified.
Continued market growth will therefore require
construction of large new fibre production plants.
USA
Accession no.698010
Item 183
Materials Challenge - Diversification and the Future.
Volume 40: Book 2. Symposium proceedings.
Anaheim, Ca., 8th-11th May 1995, p.989-93. 627
CARBON FIBRE-REINFORCED COMPOSITES:
ENTERING A NEW ERA
Fanter D L; Strandburg D B; Dry A C
Zoltek Corp.
(SAMPE)
Between 1960 and 1980, the technology of carbon fibrereinforced
composites (CFRCs) was driven by aerospace
applications. As a result, the costs of CFRCs were
54 © Copyright 2001 Rapra Technology Limited

References and Abstracts
prohibitive for all but the most critical strength/weight
applications. Costs have since decreased and carbon
fibre applications have expanded into other industries
such as sporting goods and motor racing where the
strength/weight properties provide significant
competitive advantage. New methods for producing
economical, large carbon fibre tows, accompanied by
the development of improved fabrication techniques will
continue to drive costs lower, further expanding the
markets for CFRCs. The automotive industry, challenged
to produce the ‘supercar’ with 40% lower weight and
capable of 80 mpg, is evaluating CFRC applications
throughout the vehicle, including bodies, powerplants,
chassis, flywheels and pressurised fuel cylinders. Carbon
fibre composite confined concrete columns improve
compression strength and shear resistance, making
bridges and overpasses inherently earthquake-resistant.
Improved cost efficient carbon fibre production methods
coupled with low-cost composite fabrication technology
will continue to reduce the costs of CFRCs and usher in
the new era. Carbon fibre-reinforced composites will
no longer be viewed as cost-prohibitive but costeffective,
resulting in explosive growth in new
applications as well as deeper penetration of existing
markets. 4 refs.
USA
Accession no.698008
Item 184
Tyretech ’98. Conference proceedings.
London, 15th-16th June 1998, paper 11. 6T1
BRIDGESTONE AS A SUPPLIER OF FORMULA
ONE TYRES
Carruthers D
Bridgestone/Firestone Europe SA
(Rapra Technology Ltd.; European Rubber Journal)
A major milestone in the development of Bridgestone was
in 1986, when Porsche adopted Bridgestone RE 71 ultrahigh
performance tyres as original equipment for its
limited edition 959 sports car, which at that time was the
world’s fastest production car. Then in 1988, Bridgestone
acquired the Firestone group, the second largest US tyre
manufacturer, for 2.6 billion US dollars. More recently,
in 1990, the European headquarters were established in
Brussels in order to manage and develop markets in both
Western and Eastern Europe. In 1997 Bridgestone first
entered Formula One racing. Some company information
is presented, with emphasis on the company’s
development of Formula One tyres.
BELGIUM; EUROPEAN COMMUNITY; EUROPEAN UNION;
WESTERN EUROPE
Accession no.697372
Item 185
Composites-French/English
No.28, 15th Aug-30th Sept.1998, p.14-6
CARBON REVOLUTION FOR TIME’S FORKS
The French company, Time Sport International,
specialises in the design and manufacture of highperformance
cycling equipment. The company is to launch
a new line of comfortable and extremely stiff carbonbased
forks that weigh under 400 grams. The article
supplies comprehensive details of the manufacture,
properties and benefits of the new forks, which are made
from Vectran, a synthetic material developed by Hoechst,
combined with carbon fibres. This lightweight composite
material exhibits high flexibility and performance levels
as well as outstanding impact and vibration absorbing
capabilities.
TIME SPORT INTERNATIONAL
EUROPEAN COMMUNITY; EUROPEAN UNION; FRANCE;
WESTERN EUROPE
Accession no.696218
Item 186
High Performance Plastics
Sept.1998, p.8-9
MICROSPHERE-FILLED PU SKIN FOR WORLD
CUP FOOTBALLS
This article highlights a new development by sports
company Adidas AG, and Bayer AG of Germany. They
have developed a new skin for footballs, encorporating a
syntactic foam produced by mixing a polyurethane
compound with millions of tin gas-filled microspheres,
which produce high elastic recovery when the footballs
are kicked. Full details are given.
BAYER AG; ADIDAS AG
EUROPEAN COMMUNITY; EUROPEAN UNION; GERMANY;
SWITZERLAND; WESTERN EUROPE
Accession no.696091
Item 187
Kunststoffe Plast Europe
88, No.8, 1998, p.30-1
HARD BUT TOUGH
The application of a range of materials from Theodor
Bergmann Kunststoffwerk in sports equipment
applications is described with brief product details relating
to their suitability for the application. Bergamid A 70 TMyF,
a high impact nylon 66 is used for snow shoes, with
Bergaflex SEBS on the sole; Bergamid B 70 TM-Z, nylon
6 with a modifier for cold impact resistance, is used for
ice skate blades, and the eyelet of a lightweight tennis
racquet uses a special impact-modified nylon 66,
Bergamid A 70 TM-yF.
BERGMANN T.,KUNSTSTOFFWERK
EUROPEAN COMMUNITY; EUROPEAN UNION; GERMANY;
WESTERN EUROPE
Accession no.695880
Item 188
SAMPE Journal
34, No.4, July/Aug. 1998, p.46-50
© Copyright 2001Rapra Technology Limited 55

References and Abstracts
DESIGN AND DEVELOPMENT OF A
COMPOSITE MONOCOQUE AIRFOIL ROAD
RACING BICYCLE FRAME
Fried J
AFH Composites Ltd.
The design is described of a monocoque airfoil road racing
bike, developed by AFH Composites of Finland. It is
designed to replace conventional triangular metal frames
in general use. Design objectives are outlined, and include
the need for a lightweight, aerodynamic bike with
appropriate stiffness for efficient sprinting, standard allround
road racing geometry, ergonomics, aesthetics, and
price competitive with the best metal racing frames. The
AFH carbon fibre/epoxy composite monocoque frame is
made by bonding together three main components
consisting of two halves and a special V-section that forms
the inside part of the chainstays. All composite parts are
made by hand lay-up and vacuum bag technology is used
in the laminating process.
FINLAND; SCANDINAVIA; WESTERN EUROPE
Accession no.693157
Item 189
Ends Report
No.283, Aug.1998, p.34
NIKE TO PHASE OUT PVC
Nike is to phase out PVC from its new sportwear products
throughout its global operations. The reasons why the
company is taking a “precautionary approach” with PVC
include the carcinogenicity of VCM, the use of cadmium
and lead stabilisers, dioxin emissions, concern of phthalate
DEHP and the inability to recycle synthetic leathers
containing PVC. The main uses of PVC in footwear are
in coated textiles and plastisol.
NIKE INC.
USA
Accession no.692886
Item 190
BioCycle Journal of Composting & Recycling
39, No.1, Jan.1998, p.54-5
RECYCLED FLOORING BOUNCES TOWARDS
A MARKET
Touart A P
A prototype flooring made in part from recycled tyre rubber
and old tennis shoes was installed in 1996 at Puget Sound
Christian College. The flooring, trademarked as SmartCells,
is composed of 40% rubber particles and ground athletic
shoes with an overlay of urethane. The synthetic flooring
reportedly provides greater shock absorption and enhanced
performance. The floor is the outcome of ten years of R&D
by Seamless Attenuation Technologies.
SEAMLESS ATTENUATING TECHNOLOGIES INC.
USA
Accession no.692837
Item 191
Machine Design
70, No.14, 6th Aug.1998, p.84-5
ADDING A SOFT TOUCH WITH NYLON-
BONDABLE ELASTOMERS
AlliedSignal Engineering Plastics Inc.; Advanced
Elastomer Systems LP
For years engineers have taken advantage of the chemical
compatibility of thermoplastic vulcanisates (TPVs) and
PP to mould components with rigid and soft sections. A
new TPV chemistry now adds the ability to bond TPV to
nylon, giving engineers new options for adding a soft
touch, flexibility and scaling performance to products that
demand higher strength such as sporting goods,
automotive components, and appliance knobs and
handles. While PP has a good balance of qualities, nylons
improve performance by offering high-temperature
resistance, stiffness, strength, toughness, and chemical
and abrasion resistance. The strong bond created between
TPVs and nylon substrates eliminates the need for
mechanical interlocks and primers or adhesives.
Manufacturers apply soft-touch elastomers to nylon
substrates using insert moulding, two-shot injection
moulding or coextrusion. Details are given.
USA
Accession no.692604
Item 192
Popular Plastics and Packaging
43, No.3, March 1998, p.67-9
POLYURETHANE ALL WEATHER SPORTS AND
SAFETY SURFACES
Sen A
Synthetic sports pitches are widely replacing traditional
gravel, sand and shale surfaces. In many parts of the
world, leisure centres and clubs have installed their own
floodlit sports facilities for mini-football, netball, tennis,
hockey and many other sports activities. These synthetic
sports pitches reduce the number of accidents and are
usable in all types of weather conditions. In the UK,
irrespective of the type of surface used, the installation
of playground surfaces must meet the requirements of
BS 5696. In the USA, the safety surfacing system must
comply with the Americans With Disabilities Act (ADA),
by providing the handicapped with a smooth, cushioned
access route to buildings and equipment. The
International Amateur Athletics Association has also laid
down stringent specifications for durability, strength and
safety. Used and discarded vehicle tyres form one part
of the product, the other being a single component
medium viscosity PU prepolymer based on MDI. Used
tyres are preferred in place of EPDM, SBR or NR to
keep costs low. Spent tyres in the form of regrind, shreds
and buffings or mixes of various types and grades of
mainly recycled rubber are used. However, depending
on the use of the surface, virgin materials may be blended
with recycled rubber, while for professional sports
56 © Copyright 2001 Rapra Technology Limited

References and Abstracts
surfaces EPDM, SBR/NR blends and NBR is preferred.
Details are given
INDIA
Accession no.692515
Item 193
Chemical Marketing Reporter
254, No.8, 24th Aug.1998, p.FR22/4
SMOOTHING THE LANDING IN ADVANCED
COMPOSITES
Tullo A
The anticipated downturn in commercial aircraft is
causing advanced composite makers to look to nonaerospace
applications, such as sporting goods, satellite
materials, electronics and telecommunications, to help
level the cyclicality of aerospace applications. Cytec
became the largest US producer of both composite
prepregs and aerospace adhesives last year with its
purchase of Fiberite’s prepreg business. The US prepreg
tape market is estimated at 1.4bn US dollars and is
growing at between 7 and 9%.
USA
Accession no.692093
Item 194
Journal of Materials Science.Materials in Medicine
9, No.8, Aug.1998, p.457-62
APPLICATION OF LAMINATES TO
MOUTHGUARDS: FINITE ELEMENT
ANALYSIS
Ho Sung Kim; Mathieu K
Newcastle,University
A finite element model comprising a flat-ended indentor
and disc representing a colliding object and mouthguard
materials, respectively, was developed to study stress
distribution and impact force in laminates. The disc
consisted of two layers and its top layer was in contact
with the indentor. The effects of modulus and volume
fraction on stress distribution and force transmitted in
laminates were studied using the finite element model
for a collision in contact sports such as boxing or football.
The material used for the test was ethylene-vinyl acetate
copolymer. 12 refs.
AUSTRALIA
Accession no.692069
Item 195
Modern Plastics International
28, No.5, May 1998, p.56/61
SOFT TPE’S ARE OPTIMIZED FOR
EXPANDING ROLES IN CONSUMER GOODS
Grande J A
This article examines the trend by manufacturers to use
innovative soft (i.e. low-durometer) thermoplastic
elastomers (TPE’s) to provide improved tactile
characteristics, along with better ergonomics and
aesthetics, for consumer-friendly goods sporting easy-tohandle
grips, handles, and covers. The marketable
advantages of soft-touch TPE’s is fully investigated.
TEKNOR APEX CO.; DUPONT DOW
ELASTOMERS; GW PLASTICS INC.; RAPRA
TECHNOLOGY LTD.; MA HANNA; ADVANCED
ELASTOMER SYSTEMS; GE PLASTICS;
ALLIEDSIGNAL PLASTICS; SHELL CHEMICAL
CO.
BELGIUM; EUROPEAN COMMUNITY; EUROPEAN UNION;
UK; USA; WESTERN EUROPE
Accession no.691797
Item 196
Adhesive Technology
15, No.1, March 1998, p.18-9
MDI-BASED URETHANE PREPOLYMERS AS
BINDERS
Moore D
Industrial Copolymers Ltd.
The use of granulated rubber crumb bound with one- or
two-component PU binders has become increasingly
popular in sports and safety surfacing. The rubber crumb
granules are normally ground from scrap commercial
rubber tyres, as car tyres often contain high levels of
additives that make them unsuitable for this purpose. This
process benefits the environment because it eliminates
problems associated with the disposal of tyres. In the
USA, many states have banned the dumping of tyres in
landfill sites. Furthermore, it is estimated that by re-using
rubber granules with a polymer binder, energy savings of
107,000 to 111,500 kJ/kg are achieved compared with
the incineration of scrap tyres. Sports and safety surfaces
usually contain more than 80% recycled product. Details
are given. 4 refs.
EUROPEAN COMMUNITY; EUROPEAN UNION; UK;
WESTERN EUROPE
Accession no.689837
Item 197
Engineering Design
No.1, 1998, p.6-7
NEW IN-LINE SKATE CLIPS ON OR OFF IN
SECONDS
Marabelli F
Du Pont Italiana SpA
Until recently, MGM developed and made sports shoes sold
mostly under various well-known brand names. The
company then entered the in-line skate market in 1996 with
the launch of the Hypno. This patented design’s big selling
point is that the wheels can be easily removed from the shoes
and fixed on again in a moment. In MGM’s original design
the chassis was made in two sections, one of aluminium,
one of plastic. That made for a lengthy manufacturing
process, with a complicated assembly procedure and the need
© Copyright 2001Rapra Technology Limited 57

References and Abstracts
to carry stocks of two different parts. Then, with the help of
Du Pont Italiana’s Technical Service Centre for Engineering
Polymers, MGM redesigned the chassis as a single injection
moulded part in high strength Zytel 6,6 nylon. The new
chassis is lighter than the previous version and so is easier to
carry and use, but it sacrifices nothing in performance and
durability. Details are given.
MGM SPA
EUROPEAN COMMUNITY; EUROPEAN UNION; ITALY;
WESTERN EUROPE
Accession no.689814
Item 198
Engineering Design
No.1, 1998, p.4-5
BOON FOR BIKERS
Daykin S
Du Pont (UK) Ltd.
A young designer’s ingenuity and perseverance, together
with some design and development assistance from Du
Pont, is reported to have led to the invention of the
Terraplane, a device which enables mountain bikers to
ride over seemingly insurmountable obstacles with
apparent ease, and without damage to the chain wheel.
Moulded entirely of Zytel ST nylon, the Terraplane is
roughly the size and shape of a clotheshanger; it is fixed
to the down-tube so that it almost bridges the gap between
the bicycle’s wheels. Details are given.
EUROPEAN COMMUNITY; EUROPEAN UNION; UK;
WESTERN EUROPE
Accession no.689813
Item 199
Eureka
18, No.7, July 1998, p.22-3
WHEELS WITHIN PLASTIC WHEELS
Shelley T
Synthetic polymer tyres, with rolling resistances very
close to those of conventional air-filled tyres, offer
puncture-proof operation and extended lifetimes. The
technology began by improving the handling of
wheelchairs and subsequently advanced to bicycles. The
newest versions are suitable for lawn tractors and electric
vehicles, with full scale car tyres a real possibility in the
near future. Prices are likely to be comparable with those
of their conventional rubber equivalents. Urathon’s
business is built on PU. Based in Hilmarton in Wiltshire,
it has built up a substantial reputation for PU tyres for
wheelchairs. The tyres, which are all moulded in China,
are made so that the foam skins are on the outside, while
the PU is in contact with the surface of the mould. Details
are given of more recent developments.
URATHON TYRE INDUSTRIES
EUROPEAN COMMUNITY; EUROPEAN UNION; UK;
WESTERN EUROPE
Accession no.689792
Item 200
Advanced Materials & Processes
153, No.6, June 1998, p.77
MATERIALS ON THE TOSHIBA
The Toshiba is a sailing yacht that is participating in an
11 month Whitbread Around-the-World race. The 1997-
98 race marks the first time that all competing yachts are
built to the same class, at 64 ft long and 30,000 lb. Because
all the boats are the same class, many distinctions between
them are marginal. However, some differences can be
significant. For example, the sail on the Toshiba has high
performance sails made of AlliedSignal’s Spectra fibre.
In fact, of the Toshiba’s 16 sails, the mainsail and other
highly loaded spinnakers are made of sailcloth fabricated
of Spectra yarns. These fibres were chosen because of
their superior UV resistance, high tear strength and
resistance to flex fatigue. The patented process for making
the sailcloth was invented originally for the 1992
America’s Cup race. The cloth, which is described as
resembling a fibre-reinforced film more than cloth, is a
flexible composite in which Spectra fibre is incorporated
into a non-woven, unidirectional laminate with Du Pont
Mylar backing. Details are given.
ALLIEDSIGNAL CORP.
USA
Accession no.687903
Item 201
Plastics News(USA)
10, No.4, 23rd March 1998, p.23
COMFORT, SAFETY NO LONGER TAKE A
BACK SEAT
Pryweller J
This article looks at the development of the design of
technologically-advanced seating and occupant protection
systems in Formula One racing cars, resulting from a
three-year agreement between Lear Corp. of the USA,
and UK-based Steward Grand Prix. Full details are
provided.
LEAR CORP.
USA
Accession no.684147
Item 202
Molding Systems
56, No.5, May/June 1998, p.41-3
MULTI-SHOT PROCESS IS A TEAM EFFORT
The new one-time Fun Saver sport camera, with its onehanded
operation and rubberised waterproof casing, was
the most complex multi-shot injection moulding project
ever attempted by Kodak. The company partnered
injection moulding machine maker Ferromatik Milacron
and mouldmaker Foboha to develop a process for
moulding the hard inner housing of clear PS overmoulded
with a soft, coloured outer layer.
58 © Copyright 2001 Rapra Technology Limited

References and Abstracts
KODAK; FERROMATIK MILACRON GMBH;
FOBOHA
EUROPEAN COMMUNITY; EUROPEAN UNION; GERMANY;
USA; WESTERN EUROPE
Accession no.682398
Item 203
Revue Generale des Caoutchoucs et Plastiques
No.757, March 1997, p.44
French
PISCINES DESJOYAUX CONTINUES WITH ITS
INTEGRATION
Lafuma F
Financial results are presented for French swimming pool
manufacturer Piscines Desjoyaux, and details are given
of investments by the Company in rotational and injection
moulding and recycling facilities. The French market for
swimming pools is briefly examined.
PISCINES DESJOYAUX; DESJOYAUX
EUROPEAN COMMUNITY; EUROPEAN UNION; FRANCE;
WESTERN EUROPE
Accession no.682356
Item 204
Modern Plastics Encyclopedia
74, No.13, 1998, p.B54-5
SEMI-AROMATIC GRADES ADD MARKET
SHARE AND STIMULATE DEMAND
Mewborn J W
EMS-American Grilon Inc.
Nylon remains the number one engineering thermoplastic.
This is because the variety of nylon grades available
includes not only the old standbys, but whole new families
of compounds designed for a large variety of specific end
uses. For example, new grades are now available using
specialised nucleation systems which combine the
benefits of nucleation with much greater toughness.
Applications for nylon grades continue to grow in the
automotive, electrical and sports equipment sectors.
USA
Accession no.680762
Item 205
Plastics News(USA)
10, No.6, 6th April 1998, p.1/24
SNOWSHOE OUTPACES OTHERS IN SPI, PN
DESIGN CONTESTS
Grace R
Design details are given of a snowshoe which features a
novel use of reaction injection moulded polyurethane to
encapsulate its tubular frame and traction cleats. The
design has earned its designer, Eikon Product Realization
Inc. the first IDSA/Plastics News Design Award. The
three-dimensional computer aided design program SDRC
Ideas was used as well as Protogenic’s rapid prototyping
system to produce a full-size prototype model. Bayflex
110-25 elastomeric urethane RIM system is used
encapsulate most of the frame in a single, 15 second shot.
Production savings made by the use of reaction injection
moulding are discussed.
EIKON PRODUCT REALIZATION INC.; MILFOAM
CORP.; TUBBS SNOWSHOE CO.
USA
Accession no.680179
Item 206
50 Years of Advanced Materials or Back to the Future.
15th International European Chapter conference
proceedings.
Toulouse, 8th-10th June 1994, p.289-97. 627
COMPOSITES AND FORMULA 1
Perrin D
Ligier F1
Edited by: Hognat J; Pinzelli R; Gillard E
(SAMPE,European Chapter; Aerospatiale SA; Du Pont
de Nemours International SA)
The Formula One championship is one of the most popular
worldwide sports activities. In addition, it is a
technological spectacle offering a fertile grounding for
composites materials. The framework of technological
engineering in motor racing is outlined, with some
emphasis on composites in Formula 1. Future
developments are described, concluding with an example
of R & D in F1 - energy absorption by composite
materials.
EUROPEAN COMMUNITY; EUROPEAN UNION; FRANCE;
WESTERN EUROPE
Accession no.679912
Item 207
Prototyping Technology International
No.4, April/June 1998, p.43/6
NOT ANY OLD IRONS
Christoperson S
Stratasys
A case study is presented in which the product design
and development of a golf club head by Mizuno USA
was significantly reduced using rapid prototyping
techniques. Typically, a new golf club head design takes
about 13 months to develop, but using RP the company
was able to begin concepting new irons just seven months
prior to the scheduled production. The cost of a fused
deposition modelling RP system was offset by savings
per iteration.
MIZUNO USA
USA
Accession no.679833
Item 208
Scrap Tire News
© Copyright 2001Rapra Technology Limited 59

References and Abstracts
12, No.5, May 1998, p.3
SPORTS SURFACING FRANCHISE
OPPORTUNITY
The product range of Safe Sports Surfaces is described,
with reference to the company’s offering of franchise
opportunities for recycled rubber. The company is
reported to have established marketing and distribution
functions to support a nationwide franchise system for
its full line of recycled rubber-based surfacing products.
These include CushFil and CushPlay for playground
surfacing, race tracks, and jogging trails, CushWalk
decorative walkways and CushStep stepping stones. Safe
Sports Surfaces is also a ReBound dealer offering a full
line of turf enhancement products.
SAFE SPORTS SURFACES
USA
Accession no.679488
6, No.4, April 1998, p.27-8
BROADENING THE CUSTOMER BASE
Goldsberry C
The need to remake a company’s image in order to grow
is discussed, with particular reference to the situation at
Sports Molding Inc. The company recognises a need to
diversify and to this end has changed its name and logo
to SMI to reduce the emphasis on sports equipment. It
has in addition, conducted market research into what it
does best and the needs of its customers and views of its
employees. The problem solving expertise of SMI has
enabled it to acquire new projects, and the company aims
to apply the experience of its sporting goods moulding
background to future business.
SMI
USA
Accession no.675897
Item 209
Kunststoffe Plast Europe
88, No.4, 1998, p.27-8 (German: p.556/8)
German; English
SAFE AND SILENCING
Scholl A; Piroddi A; De Wever W
This article highlights the use of thermoplastic
polyurethanes (TPU) and reinforced thermoplastic
polyurethanes (RTPU) in sports and recreational
applications. It considers: designs for winter sports,
silencing combat sports equipment (crossbows), inline
skating comfort, and good adhesion in sandwich
moulding.
BELGIUM; EUROPEAN COMMUNITY; EUROPEAN UNION;
GERMANY; ITALY; WESTERN EUROPE
Accession no.679442
Item 210
Rubber World
217, No.6, March 1998, p.17
POLYOLEFIN FOAM GROWTH PEGGED AT
4.8%
Total demand for polyolefin foams in the three main
markets grew by 4.8% in 1997, according to Chemical
Market Resources. Total demand for the foams in North
America, Japan and Western Europe was 252.3 thousand
metric tons. The major markets are packaging, sports
equipment, automotive, construction/building and
industrial. Metallocene based polyolefin foams are
expected to grow from six million pounds in 1997 at an
average of 24% a year.
CHEMICAL MARKET RESOURCES
WORLD
Accession no.678273
Item 211
Injection Molding
Item 212
Machine Design
70, No.4, 10th March 1998, p.173-7
GET A GRIP!
Edited by: Hotter D S
Trends in the use of soft-touch elastomers in a variety of
applications are considered, together with the properties
and characteristics of the materials, and methods of
bonding. Soft-touch elastomers provide manufacturers
with a cost-effective means for improving the look, feel
and performance of consumer products, particularly in
the power tool, personal care product, sporting goods and
domestic appliance sectors. As well as providing a means
of product differentiation, soft-touch elastomers provide
an ergonomic and non-slip grip, energy absorption
characteristics and damping qualities. Material properties,
design options and methods of moulding grips are
described.
USA
Accession no.675567
Item 213
International Polymer Science and Technology
24, No.7, 1997, p.T/5-12
MATERIALS RECYCLING OF USED TYRES
AND RUBBER SCRAP
Capelle G
Berstorff H.,Maschinenbau GmbH
The recycling of waste rubber has been a topical subject
for a long time but, because of the quantities involved, is
still of little industrial significance compared to energy
recovery and dumping. This is without doubt due to the
limited possibilities for returning semi-finished products
made of waste rubber to the original product cycle.
Common products mode with recycled rubber fillers
include in particular insulation materials, flooring for
sports grounds and large industrial rubber articles exposed
60 © Copyright 2001 Rapra Technology Limited

References and Abstracts
to low physical stresses such as level crossing boundaries,
etc. Rubber granules and powdered rubber produced using
the hot grinding procedure with their large specific surface
are good examples of high-quality products with good
bonding properties which, when subjected to latex coating
processes, are of comparable quality to universal fillers.
EUROPEAN COMMUNITY; EUROPEAN UNION; GERMANY;
WESTERN EUROPE
Accession no.675097
Item 214
London, 1997.
BS 1892:PT1(1986). GYMNASIUM EQUIPMENT -
SPECIFICATION OF GENERAL
REQUIREMENTS
British Standards Inst.
BS 1892:PT1(1986)
Version 97. Photocopies and loans of this document are
not available from Rapra.
EUROPEAN COMMUNITY; EUROPEAN UNION; UK;
WESTERN EUROPE
Accession no.674669
Item 215
Design Engineering
March 1998, p.70
WINNING PERFORMANCE
This article supplies details of the advantages and benefits
of using Stevens Urethane, a thermoplastic polyurethane
from JPS Elastomerics, for applications in a wide variety
of athletic equipment. The performance characteristics of
thermoplastic polyurethane include toughness and
durability, good tensile strength and abrasion resistance and
ease of fabrication. Athletic applications include bladders
for helmets, balls and for customising sports shoes.
JPS ELASTOMERICS
USA
Accession no.672751
Item 216
Plastics Technology
44, No.3, March 1998, p.34-9
COMPOSITES ’98: UNVEILING NEW
TECHNOLOGIES
Naitove M H; De Gaspari J
A review is presented of a selection of some of the latest
developments on show at the SPI’s International Composites
Expo Nashville show. Descriptions are given of a 3-D
pultrusion method; an in-line machining centre for
automatically milling, routing, drilling and cutting off
pultruded structural profiles as they emerge from the die; a
biofiltration process for the removal of VOCs; the
SMARTweave process development tool that provides a
means of observing in real time the progress of the resin flow
front and both gel and cure inside an RTM mould; vacuumassisted
RTM; computer controlled filament winding; and a
mountain bike with a frame of woven carbon fibre fabric and
nylon 6 resin, made by electrostatic powder impregnation.
SPI
USA
Accession no.671848
Item 217
Plast’ 21
No.54, Sept.1996, p.70-2
Spanish
APPLICATIONS OF PLASTICS IN BICYCLES
The use of plastics in bicycles and bicycle accessories is
examined. Applications described include pumps, water
bottles, pump and bottle holders and pedals.
TRES DESIGN GROUP
USA
Accession no.670819
Item 218
Plastics and Rubber Asia
PU Asia p.13, contained within 12, No.75, Nov./
Dec.1997
PREPOLYMERS FOR SKATERS IN A HURRY
This article introduces a series of quasi-prepolymers from
Bayer AG of Germany. These behave like standard
prepolymers, but have low viscosity so can be processed
by the one-shot technique. The prepolymers are ideally
suited for the manufacture skate rollers.
BAYER AG
EUROPEAN COMMUNITY; EUROPEAN UNION; GERMANY;
WESTERN EUROPE
Accession no.670701
Item 219
Polymer News
22, No.12, Dec.1997, p.433
WORLD’S FIRST DIMENSIONALLY STABLE
ARTIFICIAL PLAYING SURFACE DEBUTS AT
TEXAS STADIUM
Bridging the gap between player safety and player
performance is a new artificial playing field that meets
the tough demands of the five-times Superbowl Champion
Dallas Cowboys. SportField, the world’s first
dimensionally stable artificial turf system, will not stretch
or pull under most weather conditions. The synthetic field,
which was installed at Texas Stadium before the start of
the Cowboys’ 1996 football season, is a more resilient
and forgiving system that dissipates and cushions impact.
Already available for professional and collegiate playing
fields, SportField is also suitable for the nation’s
approximately 26,000 high schools. Details are given.
SPORTFIELD INC.; BAYER CORP.
USA
Accession no.670135
© Copyright 2001Rapra Technology Limited 61

References and Abstracts
Item 220
Plastics Technology
44, No.2, Feb.1998, p.45-8
BIOCIDES KEEP BUGS OFF YOUR PLASTICS
Manolis Sherman L
Biocides are now a growing presence in polyolefins
and other plastics, due to consumer demand for ‘germfree’
products. The use of biocides or antimicrobial
additives in plastics traditionally has been limited
chiefly to flexible PVC and to PU foams, as they are
the most susceptible to attack by fungi, bacteria, and
algae that can cause discolouration, odour and
deterioration of mechanical properties. Plasticisers are
a key food source for these micro-organisms in PVC.
Popular applications for biocides in these two plastics
include roof liners, tarpaulins, wall and floor coverings,
pool and ditch liners, shower curtains, bath mats,
outdoor furniture, marine upholstery, insulation foams,
and sports-shoe soles. In more recent years, increasing
public concern about food-borne pathogens and other
germs in the environment has been driving consumer
demand for antimicrobials in products made of
polyolefins and other plastics ranging from housewares
such as cutting boards to children’s toys. An outline of
new developments is presented.
USA
Accession no.668819
Item 221
Plastics News(USA)
9, No.45, 5th Jan.1998, p.20
BOATS CAST OFF WOOD IN FAVOUR OF
PLASTICS
Pryweller J
Engineered thermoplastics and composite, whether in
extruded sheet or injection moulded form, are reported
to have dominated at the recent International Marine
Trades Exhibit and Conference. Several parts
suppliers indicated the shift from wood to plastics.
Some had placques with the word wood, surrounded
by a circle with a slash mark through it. Composite
supplier Kayco admonished booth visitors to let
Kayco ‘get your wood out’. Meanwhile, several
leading makers of yachts and pleasure craft, including
Sea Ray Boats and OMC Boat Group, adorned their
latest models with a heavy cache of plastic parts. On
one of Sea Ray’s 54-ft. yachts, the customised cabin
and deck used thermoplastics in areas that once had
been the domain of teak and plywood. They and other
manufacturers were considering changing their hulls
from GRP to acrylic or new composite materials.
Details are given.
KAYCO INC.; SEA RAY BOATS INC.; OMC BOAT
GROUP INC.
USA
Accession no.668549
Item 222
Kunststoffe Plast Europe
87, No.12, Dec.1997, p.22-4
FASTER AND FURTHER
Murauer H
Fischer
The development is described of high tech tennis racquets.
Long range, high power and light weight are among the
requirements for modern racquets which can be met by
the use of fibre-reinforced plastics materials and
technologies. The manufacture of racquets at Fischer is
detailed with respect to material selection, quality
assurance, and production methods.
EUROPEAN COMMUNITY; EUROPEAN UNION; GERMANY;
WESTERN EUROPE
Accession no.666988
Item 223
High Performance Textiles
Sept.1997, p.3-4
ATHLETIC WEAR
Aquatic Design Inc. of the USA have invented fabric that
is waterproof, breathable, and elastic, and is deal for
outdoor sports-wear, it is reported. The construction of
the fabric is described, and its properties highlighted.
FILAMENT FIBER TECHNOLOGY INC.; AQUATIC
DESIGN INC.; AKZO NOBEL
USA
Accession no.665254
Item 224
Polyurethanes World Congress ’97. Conference
proceedings.
Amsterdam, Netherlands, 29th Sept.-1st Oct.1997,
p.381-92. 43C6
QUASI-PREPOLYMERS FOR HIGH-
PERFORMANCE APPLICATIONS
Madan S; Franyutti S; Recker K; Pantone R S
Bayer Corp.; Bayer AG
(SPI,Polyurethane Div.; ISOPA)
PU moulded elastomers prepared by reacting
4,4’diphenylmethane diisocyanate (MDI)-terminated
prepolymers with certain polyfunctional, active hydrogen
chain extenders produce elastomeric materials with
unique physical and mechanical properties that are
distinctly better than those of cold-curing or one-shot PU
systems. However, the low percentage of free isocyanate
groups (% free NCO) results in high ratios of prepolymer
to chain extender and high viscosities. Processing is
therefore less flexible, requiring higher temperatures and
specialised equipment. A new group of MDI quasiprepolymers
(with 23% free NCO) are described. They
are liquid at room temperatures and can be processed with
conventional one-shot processing equipment at similar
ratios, but exhibit properties superior to conventional one-
62 © Copyright 2001 Rapra Technology Limited

References and Abstracts
shot systems. By manipulating the backbone linkages,
wide ranges in properties and hardness are achieved with
ease of processing. This flexibility now allows quasiprepolymers
to be used for a range of applications in the
industrial, transportation, sports and leisure industries. The
structure-property relationships of quasi-prepolymers are
characterised, contrasting them with conventional
prepolymers and one-shot PU systems. By testing these
elastomers under static and dynamic conditions, the effect
of polymer structure on static and dynamic properties is
revealed. 9 refs.
EUROPEAN COMMUNITY; EUROPEAN UNION; GERMANY;
USA; WESTERN EUROPE
Accession no.665122
Item 225
Polyurethanes World Congress ’97. Conference
proceedings.
Amsterdam, Netherlands, 29th Sept.-1st Oct.1997,
p.536-44. 43C6
CONSIDERATIONS ON THE SELECTION OF
POLYURETHANE SYSTEMS FOR MIDSOLE
WEDGES IN ATHLETIC FOOTWEAR
APPLICATION
Indesteege J; Camargo R E; Mackey P W; Dent A;
Bagaglio G
ICI Polyurethanes; ICI Asiatic Chemical Co.
(SPI,Polyurethane Div.; ISOPA)
Most developments in high performance PU foam systems
for manufacturing sport shoe midsole wedges have
concentrated on reducing density while maintaining
physical properties. In the drive to reduce the density of
the midsole material, it has become apparent that
maximising any one physical property can result in the
deficiency of another critical parameter. Increasing the
hardness of a soling material, for example, may be needed
to increase the load capacity and potentially result in
improved cushioning. However, if the system is not
properly modified taking into account some basic
principles of PU elastomers, the resultant foam can have
lower resiliency and tear strength. It is important to
understand the interrelationships of properties to ensure
both the durability and performance of a sports shoe. Tear
strength, tensile strength and elongation are specified to
ensure the strength and durability, whereas pendulum
rebound, skin hardness and resiliency are specified to
ensure the performance and comfort of the shoe. The
physical property balance for midsole wedge materials
that satisfies typical hardness specifications of sport shoe
manufacturers is described. The use of compression
hardness instead of indentation or skin hardness to specify
the load bearing characteristics of midsole materials is
advocated. It is also shown that the physical properties of
a system vary as a function of the processing conditions,
as well as how the measurement of these properties are
affected by the testing environment. Using this
information, the sports shoe designer can engineer not
only the right product, but also the right process to
guarantee the maximum performance and durability of a
shoe. 12 refs.
BELGIUM; EUROPEAN COMMUNITY; EUROPEAN UNION;
THAILAND; WESTERN EUROPE
Accession no.665051
Item 226
Plastics News(USA)
9, No.32, 6th Oct.1997, p.1/9
YACHT MAKERS MULLING ACRYLIC HULL
Pryweller J
This article reports on how two US yacht manufacturers
are moving away from the use of reinforced composites
(an industry standard-bearer for almost forty years) in the
structure of their products, and how Sea Ray Boats Inc.
is testing a thermoformed hull using an acrylic/ABS blend.
Potentially the blend could have an extremely wide use,
it is stated.
SEA RAY BOATS INC.; OMC BOAT GROUP INC.
USA
Accession no.664935
Item 227
Reinforced Plastics
41, No.11, Dec.1997, p.34-8
GRP MEETS THE JET SKI CHALLENGE
Marsh G
In the USA, up to 200,000 personal watercraft units are
produced. Over 92% of craft are now “sit down” types
first introduced by Yamaha. Nearly all craft today are
produced in either GRP or SMC. SMC hulls tend to be
more rigid, which can make them more resistant to minor
damage, but are harder to repair when something serious
does happen. The high initial cost of steel tooling and
powerful presses can be a major drawback with SMC.
USA
Accession no.664762
Item 228
Materie Plastiche ed Elastomeri
No.4, April 1996, p.190-200
Italian
WEARING POLYMERS
Modini G
Developments by a number of companies in synthetic
fibres, including microfibres, elastomeric fibres and various
speciality fibres are reviewed, and applications of such
fibres in sportswear are examined. Polymeric membranes
used in clothing are also discussed. Statistics are presented
for the Italian and European textile industries and Italian
exports and imports of synthetic fibres.
EUROPEAN COMMUNITY; EUROPEAN UNION; ITALY;
WESTERN EUROPE; WESTERN EUROPE-GENERAL; WORLD
Accession no.663535
© Copyright 2001Rapra Technology Limited 63

References and Abstracts
Item 229
Revue Generale des Caoutchoucs et Plastiques
No.749, April 1996, p.65-6
French
GOUILLARDON GAUDRY: A DETERMINED
COMPANY
Gossot J
An account is given of the activities of Gouillardon
Gaudry of France in tyre distribution, custom rubber
compounding and the moulding of soles for sports and
safety footwear and rubber components for the automotive
and electrical industries. Turnover and other company
information is presented.
GOUILLARDON GAUDRY; FABER; POINT S
EUROPEAN COMMUNITY; EUROPEAN UNION; FRANCE;
WESTERN EUROPE
Accession no.663531
Item 230
Revue Generale des Caoutchoucs et Plastiques
No.749, April 1996, p.47
French
DESJOYAUX BACKS RECYCLED PLASTICS
Lafuma F
The activities of Desjoyaux of France in the manufacture
of swimming pools using reclaimed plastics are briefly
examined. Turnover and employment figures are
presented for the Company.
DESJOYAUX
EUROPEAN COMMUNITY; EUROPEAN UNION; FRANCE;
WESTERN EUROPE
Accession no.663526
Item 231
Revue Generale des Caoutchoucs et Plastiques
No.749, April 1996, p.40-4
French
SLIDING SPORTS: SURFING TAKES THE HIGH
GROUND
Lavabre S
Developments in equipment and footwear for winter
sports and in the use of polymers in these applications
are examined. The activities of a number of manufacturers
of such products are reviewed, and turnover figures are
presented for some companies. Statistics show French and
world sales of winter sports equipment in 1993/94 and
1994/95.
ROSSIGNOL SKI CO.; SALOMON SA
EUROPEAN COMMUNITY; EUROPEAN UNION; FRANCE;
WESTERN EUROPE; WORLD
Accession no.663525
Item 232
Macplas International
No.14, Nov. 1997, p.44
VERSATILE MICROFIBRES
Equipment has been developed by Omam which will
enable PP microfibres to be used more extensively in
technical articles and clothing. The company offers high
level turnkey solutions based on MicroTech equipment
for the spinning of continuous multifilaments in
polypropylene, having a denier range of between 40 and
300. Omam’s expertise covers the whole production
process including the colouring and dispersion of
additives in the granule, the extrusion with specific screw,
the spinNing with customised spinnerets, the air cooling
system with special chambers with peculiar flow
distribution, and the final winding on high speed winders.
OMAM
USA
Accession no.662721
Item 233
Urethanes Technology
14, No.6, Dec. 1997-Jan. 1998, p.32/4
THERE’S NO BUSINESS LIKE SNOW BUSINESS
- UNLESS YOU SUPPLY POLYURETHANES
Davis B
The use of polyurethanes in winter sporting goods and
clothing is examined. The ski making industry is said to
have suffered a decline, due to economic slowdowns,
escalating costs of winter holidays, warmer European
winters, and a shift in demand to snowboards. Likewise,
demand for ski boots has also fallen, although still
accounting for around 15% of the total thermoplastic
polyurethanes business, it is reported. Details are given
of ski makers ranked by turnover and by production
amounts. The growth of tapered or carving skis is noted,
which now accounts for more than half of alpine ski sales
in North America. A total involvement in the winter sports
sector of more than 20,000 tonnes of PU is estimated.
EUROPE-GENERAL; JAPAN; NORTH AMERICA
Accession no.662679
Item 234
Urethanes Technology
14, No.6, Dec. 1997-Jan. 1998, p.20-2
NEW APPLICATIONS HELP TPUS PROSPER AS
ONE KEY SECTOR CONTINUES DOWNHILL
Reed D
New applications for thermoplastic polyurethane
elastomers are reviewed, with statistics for consumption
by end-use application for Western Europe and worldwide.
The declining use of polyurethanes in the key sector of ski
boots is examined, but growth in sporting goods and other
footwear is said to be strong. Growth prospects overall are
said to be good, with the Far East expected to show growth
of 7-9%, according to Bayer Corp.
EUROPE-GENERAL; WORLD
Accession no.662676
64 © Copyright 2001 Rapra Technology Limited

References and Abstracts
Item 235
Macplas International
May 1997, p.137
WARM HANDS
Ski gloves have been developed which use a polyesterurethane
for the glove and feature a thermoplastic PU liquid
heat transfer bladder which is filled with an oil-based fluid.
The hand-shaped bladder absorbs heat generated by an iron
oxide heat pack and spreads the warmth evenly over the
entire hand for several hours at a time. The properties
afforded by polyurethane which makes it suitable for this
particular applications are described.
JPS ELASTOMERICS CORP.; SEALTECH
USA
Accession no.662641
Item 236
Packaging Technology & Science
10, No.3, May-June 1997, p.129-43
OVERVIEW OF SMART TECHNOLOGY
Goddard N D R; Kemp R M J; Lane R
UK,Defence Research Agency
Over the last five years, researchers working in most of
the major industrial sectors have given at least some
thought to how they might apply ‘smart’ technology -
important areas being in transport, building, civil
infrastructure, biomedicine, sport and leisure, power
generation and oil, gas and petrochemical. The prospects
for ‘intelligent packaging’ have been assessed most
notably by CEST and Pira International. Interest in ‘smart’
packaging has been sustained over the four years since
this pioneering study, with the focus of attention gradually
shifting from abstract conjecture to practical application.
A systematic definition of ‘smart’ technology is presented,
and some of the major advances being made under this
technological umbrella are briefly reviewed. The UK
Defence Research Agency (DRA) has been active in
‘smart’ technology from its earliest days and has
concentrated mainly on aerospace and defence
applications. However, there has been a conscious effort
to identify wider opportunities for the exploitation of the
contributing ‘smart’ technologies. Some ideas relevant
to packaging which are currently being developed in
conjunction with the DRA’s Packaging Authority are
outlined, together with an invitation for interested
companies to participate in various DRA-led joint
development programmes. 26 refs.
EUROPEAN COMMUNITY; EUROPEAN UNION; UK;
WESTERN EUROPE
Accession no.662334
Item 237
Rubber and Plastics News
27, No.6, 20th Oct.1997, p.45
PU SPIKES STEP IN WHERE METAL ONCE
TREAD
Whitford M
The recent trend by golf courses to ban metal spikes began
about five years ago and has already affected about 2,100
of USA’s 14,000 golf courses, according to Softspikes.
The reason for outlawing metal spikes was their causing
a total of more than 40 million US dollars’ damage to
America’s golf courses and clubhouses each year,
according to a US Golf Association study. For upscale
courses, the repair costs are much higher. One course
owner projected a 60,000 US dollars annual savings in
clubhouse repairs alone if it barred metal spikes. The ban
really should come as no surprise to golfers or metal cleat
makers. Competitor Maven Golf Products expects the
number of courses outlawing metal spikes to more than
double by the end of 1998, exceeding 5,000. By the year
2000, 90% of US courses will be spikeless. PU cleats
currently have about 30% of the golf footwear market; if
all US courses require metal-free spikes, the PU cleat
market will soar to between 90 and 100 million US dollars
annually. Details are given.
SOFTSPIKES INC.; US,GOLF ASSOCIATION;
MAVEN GOLF PRODUCTS LLC
USA
Accession no.662197
Item 238
Rubber and Plastics News
27, No.6, 20th Oct.1997, p.43
WEAPONS UPGRADE
Whitford M
More so than most other sports, the difficulty of golf
frequently leaves its players desperately searching for a
cure-all club or ball. According to Ram Golf, the main
item in the bag that they are willing to spend the most
money on is the putter, which is used in 25-50% of all
golf strokes. Most players have two or three putters but
are very willing to go out and buy another one if they feel
it will help their short game. In addition to marketing its
Rambrand golf ball, Ram is in the booming business of
making putters featuring PU inserts. Ram’s Zebra-brand
putter features a club-head surface 60-70% comprised of
PU. The Z-shaped insert typically fills a cavity that is 3
in. wide, 0.75 in. tall and 0.5 in. deep. Details are given.
ODYSSEY GOLF INC.; RAM GOLF CORP.
USA
Accession no.662195
Item 239
Rubber and Plastics News
27, No.6, 20th Oct.1997, p.35/7
CLUB GRIPS BATTLE FOR RESPECT IN
MARKET
Whitford M
US golf grip makers claim that the average golfer
mistakenly disregards the product’s importance in swing
© Copyright 2001Rapra Technology Limited 65

References and Abstracts
strength, control and comfort. It is this myopic thinking
that is constricting the grip business in volume and dollar
sales. Most golfers re-grip their clubs every few years at
most, when they really need a new wrap every year. Also,
when the typical golfer re-grips their clubs they are usually
very mean. Most grips wholesale at about one US dollar
apiece. Rubber wraps represent about 85% of the grip
market, with thermoplastic elastomer, PU, leather and
fibre making up the remainder. Details are given.
GRIPPING SOLUTIONS INC.; EATON CORP.
USA
Accession no.662193
Item 240
Rubber and Plastics News
27, No.6, 20th Oct.1997, p.21-2
ROOKIE FIRMS TEE OFF IN GOLF BALL
MARKET
Whitford M
A few golf industry suppliers now are trying to make
money at both ends of the market - producing balls and
clubs. Industry observers say some of the major golf
equipment makers plan to enter the ball market before
the turn of the century. Among the rumoured newcomers
are golf club giants Callaway Golf and Taylor Made Golf,
and golf shoe and apparel maker Nike. Of those three,
only Callaway has unveiled blueprints for its advent to
the golf ball market - a 100 million US dollars Carlsbad,
California operation expected to launch a line in 1999.
Golf ball sales are rising at 3-5% annually and are likely
to match or beat that rate for the next 10-15 years, it is
forecast. However, increased domestic and import
competition is keeping many ball manufacturers’ sales
steady. Sales are increasing, as are the producers.
Companies must steal market share to bolster volume.
Details are given.
CALLAWAY GOLF CO.; TAYLOR MADE GOLF
CO.; NIKE INC.; SLAZENGER GOLF USA
USA
Accession no.662192
Item 241
Rubber and Plastics News
27, No.6, 20th Oct.1997, p.16/8
DISPOSABLE MARKET
Whitford M
In 1996, US companies produced around 70 million dozen
golf balls for 24.7 million golfers - almost 36 golf balls
per player. Most golf balls have a relatively short life, as
most players are not professionals. Some statistics and
current market and production trends are presented.
SUTHERLAND GOLF INC.; US,NATIONAL GOLF
FOUNDATION
USA
Accession no.662191
Item 242
Modern Plastics International
27, No.11, Nov.1997, p.95
TOUGHENED NYLON GRADES PERFORM AT
DEEP FREEZE TEMPERATURES TO - 40 DEG.C
LNP Engineering Plastics Europe has introduced Star-X
grades of nylons 6 and 66 with high impact strength in
the dry as-moulded condition. Some grades feature
characteristics at -40 deg.C equal to those of conditioned,
unmodified nylons at room temperature. They process
easily, and they are claimed to have excellent resistance
to oils, greases and most solvents. They have limited
resistance to strong acids and bases. Target applications
range from sports and leisure items, such as ski bindings
and boots, to conveyor chain links, textile machine
components and castor wheels. LNP says its proprietary
impact-modification technology offers significant
processing advantages over alternative nylons. Grades
have better flow, yielding a good surface finish even on
parts with long flow paths, it says, and unlike nylons
modified with more traditional impact modification
systems, they show no plate-out. Because impact strength
is high in the dry-as-moulded state, they do not have to
be preconditioned before use. Details are given.
LNP ENGINEERING PLASTICS EUROPE BV
EUROPEAN COMMUNITY; EUROPEAN UNION;
NETHERLANDS; WESTERN EUROPE
Accession no.662162
Item 243
Advanced Materials News
No.101, Nov.1997, p.1-2
CARBON FIBRE ROLLS ON...
The industry is reported to have commenced with a
few technical demonstration projects, notably along the
US West Coast. These have soon given way to
smallscale commercial contracts, which in turn have
recently led to carbon fibre composites being used in
some of the biggest renovation jobs of their kind.
Throughout industry, carbon fibre plastics are still
synonymous with high tech aerospace and premium
sports goods. The fact that this material is being used
at all in heavy-duty concrete renovation, let alone
formed the basis for a potentially huge-volume
business, has surprised many. Some of the latest
contracts are already beginning to stretch the industry’s
supply capacity. In the USA, a team of contractors
recently chose carbon fibre rather than steel to renovate
a major structure in Oklahoma City. Claimed to be the
biggest contract of its kind in the US, renovation of
the Myriad Convention Center will use up to 35,000
sq.m of carbon fibre overwrap to reinforce large areas
of concrete that no longer meet current design codes
on shear and flexural strength. Details are given.
XXSYS TECHNOLOGIES INC.
USA
Accession no.661766
66 © Copyright 2001 Rapra Technology Limited

References and Abstracts
Item 244
European Plastics News
24, No.11, Dec.1997, p.20-1
PLASTICS ON THE PISTE
Anscombe N
Montebelluna, Italy, is the capital of the world’s ski
boot manufacturing industry and is home to the
injection moulding machinery maker Oima. Oima has
a large market share of ski boot manufacturing
equipment sales, with over 80% of the world’s ski boots
being made on its machines. The major material used
in the manufacture of ski boots is thermoplastic PU.
Oima has recently gained a relatively new competitor
in this niche market in the form of Nuova Plastic Metal,
another Italian machinery maker situated near
Montebelluna.
OIMA SPA
EUROPEAN COMMUNITY; EUROPEAN UNION; ITALY;
WESTERN EUROPE
Accession no.661686
Item 245
Plastics and Rubber Weekly
Special Suppl.Oct.1997, p.14-7
LOTUS - PAST AND PRESENT
James B
The late Colin Chapman, who founded Lotus Cars 44
years ago, was a pioneer in the use of automotive plastics.
At the present day Lotus factory they now build the Esprit
and the Elise. The Elise chassis is a spaceframe structure
of epoxy-bonded sections of aluminium extrusions and
the Esprit has a rigid zinc coat steel backbone. All the
external panels on both models are composite GRP with
some carbon/Kevlar structural reinforcing. The Elise
weighs only 690kg.
LOTUS CARS PLC
EUROPEAN COMMUNITY; EUROPEAN UNION; UK;
WESTERN EUROPE
Accession no.659474
Item 246
Rubber Asia
11, No.6, Nov.-Dec.1997, p.29-31
NEW TRENDS IN FOOTWEAR INDUSTRY
Ames K
Nike Inc.
The requirements of the sports shoe industry in terms of
rubber compounds and the development of new
compounds is discussed, in order that the industry may
comply with the increasing demands from consumers for
performance footwear. The key requirements are
durability and traction, but other requirements are
considered with reference to the various sporting activities
for which such footwear is worn. The industry is compared
with the tyre industry, which has been seen to dominate
the development of new rubber compounds, and it is
suggested that the footwear industry may be the future
leader in new polymer development.
USA
Accession no.658986
Item 247
Materie Plastiche ed Elastomeri
No.3, March 1997, p.120-3
Italian
ONE-PIECE HULL
Baucia G
Marine craft manufactured by Intermarine of Italy are
described, with particular reference to minesweepers having
monocoque hulls produced from glass fibre-reinforced
unsaturated polyester resin by a semi-automatic impregnation
and lamination process using a steel mould with 17 movable
parts. Other craft described include boats constructed from
carbon and aramid fibre-reinforced epoxy resins.
INTERMARINE SPA; TENCARA; CRESTITALIA;
CANTIERE BIANCHI & CECCHI
EUROPEAN COMMUNITY; EUROPEAN UNION; ITALY;
WESTERN EUROPE
Accession no.658242
Item 248
Materie Plastiche ed Elastomeri
No.3, March 1997, p.112-8
Italian
SPORT: PLASTICS ON YOUR FEET
Modini G
A survey is made of plastics, rubbers, composites and
foams used in sports equipment, and reference is made to
a number of developments by materials suppliers and
equipment manufacturers. Applications examined include
skis, ski boots and roller skates.
WORLD
Accession no.658241
Item 249
Plastics Southern Africa
27, No.1, June 1997, p.26
UNIQUE ACHIEVEMENT
Luthi J
Dolder AG
This comprehensive article describes the Diamir ski
binding equipment from the Swiss company Fritschi. The
article describes the advantages of the Diamir binding
which is a new generation of high-performance,
lightweight touring binding, which incorporates many
parts made in engineering polymers. The position of the
boot on the ski can be set at four different angles for
climbing and a fifth one for descent.
FRITSCHI
SWITZERLAND; WESTERN EUROPE
Accession no.658089
© Copyright 2001Rapra Technology Limited 67

References and Abstracts
Item 250
Plastics News(USA)
9, No.31, 29th Sept.1997, p.24
COMPOSITES GIVE SNOW BOARD RIDERS
EDGE
Renstrom R
Rusty Snowboards is adding CFRP strips to allow team
riders and advanced boarders to hold high-speed turns.
Several dozen attendees at the Action Sports Retailer
exhibition spent hours after the exhibition at Rusty’s
San Diego factory, and 40 constructed their own
‘snowslider’ with the graphite strips and a choice of
board size and graphic colour. Each fibre strip is laid
alternately between three pieces of wood core. The
company has noted that a competitor has been
experimenting with CFRP placement, but have found
that it is unsatisfactory to put it along the rails as it is
difficult to bond the materials. Rusty Snowboards
employs 12, occupies 5,000 sq.ft. and can produce 60
boards daily. The shop produced 3,500 units in 1996,
its first season, and is now producing 5,000-6,000
boards/yr. Details are given.
RUSTY SNOWBOARDS; HOBIE SNOWBOARDS;
HOBIE DESIGNS INC.
USA
Accession no.657853
Item 251
Rubber Technology International
1997, p.210-2
TENSION AND LENGTH CONTROL FOR
YARNS AND TOWS IN FIBRE-REINFORCED
STRUCTURES
Nick A
Holtex Textilmaschinen GmbH
In a number of manufacturing processes (e.g. filament
winding, pultrusion, tape laying, laminating, tyre cord
weaving, sectional warping), direct beaming, warp
knitting and multi-axial weft insertion tows and fibres
are used that are made from glass, carbon, aramid,
polyamide, polyester, PP or PE. Both the processes and
the individual fibres are very different, but for all a
constant thread tension during manufacturing is
fundamental for high-quality products to be produced.
Such products include fibre-reinforced plastics for
aircraft, cars, sports equipment, protective clothing,
machine components and prepregs. Poor quality often
occurs as a result of delamination that leads to early
product failure. Causes of delamination can be detected
through investigation of the fibre, the fibre-matrix system
or the process technology that is applied. Emphasis is
placed on the behaviour of fibres and tows as they are
tangentially wound. 2 refs.
EUROPEAN COMMUNITY; EUROPEAN UNION; GERMANY;
WESTERN EUROPE
Accession no.657676
Item 252
Rubber Technology International
1997, p.19-24
DEVELOPING A HIGH-PERFORMANCE
SNOWMOBILE VARIABLE SPEED BELT
Shepher J; Westhoff W; Breed J
Gates Rubber Co.
Producing an effective design for a high-performance
variable speed belt by Gates Rubber for snowmobile
applications requires the careful balancing of a number
of conflicting properties related to functionality and
durability. A detailed test and evaluation programme was
essential in order to achieve an optimised design. Design
aspects covered include the Snow-V variable speed
transmission; transmission functions and their
interactions; belt structure, component design and
geometric design; and development validation and testing.
USA
Accession no.657634
Item 253
Advanced Materials Newsletter
19, No.17, 8th Sept.1997, p.2-3
INTEK INTRODUCES EXTRUDED FIBRE
COMPOSITES SYSTEM
Intek Plastics has introduced VHME (Very High Modulus
Extrusion) Long Fiber Extrusions based on a new
proprietary thermoplastic material system and process that
is claimed to be a replacement for wood, pultrusions and
metals. This patent-pending process extrudes
thermoplastic composite based on Celstran long glass
fiber-reinforced moulding compound materials. The
company claims that the material system is stiffer than
most woods, more weatherable than pultrusions, and will
not corrode like metals (mainly steel and aluminium).
Reinforced VHME is initially available in square tubular
shapes only. The market potential for VHME is said to
be comparable to the estimated 60-70 million US dollars
market for injection moulding of long fiber compounds,
with annual growth of about 20%. A market study has
determined that VHME has potential use in more than
130 applications including office furniture, appliances,
sporting goods, transportation, windows, doors,
wastewater and sewage treatment, corrosive environments
and commercial refrigeration. Details are given.
INTEK PLASTICS INC.
USA
Accession no.656958
Item 254
Designed for life:Composites ’94. Publication number
293/7. Conference proceedings.
London, BPF, 1994, p.27-35. 627
RESIN TRANSFER MOULDING OF MARINE
PRODUCTS
Searle T; Short D; Chudley J; Tate A; Bucknell S
68 © Copyright 2001 Rapra Technology Limited

References and Abstracts
Advanced Composites Manufacturing Centre;
Plymouth,University
(BPF)
The author describes three projects which utilise the
advantages of composite materials and the cost effective
benefits of resin transfer moulding (RTM). A range of
composite propellers as an alternative to manganese bronze
and nickel aluminium bronze (NAB) versions have been
manufactured and tested. Outboard motor propellers can be
damaged when used in shallow waters. Replacing or
refurbishing a metal propeller is expensive. The composite
alternative gives similar performance and is a cost effective
replacement. Also NAB propeller support brackets are heavy
and costly components to produce. This paper explains how
a demonstrator of part of a propeller support bracket has
been made which shows significant weight savings as well
as considerable potential cost savings. 5 refs.
EUROPEAN COMMUNITY; EUROPEAN UNION; UK;
WESTERN EUROPE
Accession no.656361
Item 255
Plastics World
55, No.10, Oct.1997, p.44
TPUS
Bucher J
Thermoplastic urethanes are the oldest thermoplastic
elastomers in commercial use. In recent years, TPUs have
been used as a flexible energy-absorbing matrix structure
in high-performance footwear and in sports equipment.
This article outlines TPU properties and part design
considerations.
USA
Accession no.654684
Item 256
Plastics News(USA)
9, No.21, 21st July 1997, p.13/31
ALLIEDSIGNAL TAKES INTEREST IN
SPORTING GOODS MARKET
Esposito F
AlliedSignal is reported to have been attempting to build
on its 4-5% share that sports goods applications have in its
product range. Spalding Sports Worldwide is testing golf
balls with covers made of the company’s Capron nylon
resins, which are in the company’s Ultra-Tough resin group.
The new surface, which can be mixed with traditional
ionomer materials, offers increased distance. The ball is
being tested to see if it meets Professional Golf Association
standards. The company says that there is also a large
untapped market for protective helmets in college, high
school and amateur sports. Brief details are given.
ALLIEDSIGNAL PLASTICS; SPALDING SPORTS
WORLDWIDE
USA
Accession no.654461
Item 257
High Performance Textiles
July 1997, p.2
POLYETHYLENE NAPHTHALATE FIBRE
MAKES TOUGHER SAILCLOTHS
A polyethylene naphthalate (PEN) fibre in development
by AlliedSignal is reported to be showing enormous
potential for high quality sailcloths. Designated Pentex,
the fibre can be woven to give fabrics which are 2.5 times
lower in stretch than traditional sails of the same weight.
This suggests the possibility of making much lighter
weight sails with comparable performance. The fibre has
already been used to make Super Modulus sails by
Challenge Sailcloth. When used for racing yachts, the
fabric has proved to have an excellent flex life as well as
good resistance to UV radiation. Furthermore, fabrics
based on Pentex can be heat-set and shrunk at elevated
temperatures which produces a sailcloth that has the
durability of a woven material but which compares in
performance with a laminate, according to Challenge
Sailcloth. Details are given.
ALLIEDSIGNAL INC.
USA
Accession no.651665
Item 258
Plastics News(USA)
9, No.15, 9th June 1997, p.28
COLD NOT REQUIRED FOR ICE SKATING
ANYMORE
Esposito F
This article describes Super Ice, a product manufactured
by Super Ice America of Colorado Springs. Super Ice is a
hard plastic surface marketed as a low-cost substitute for
ice rinks. The product is made of sections of high density
polyethylene attached to both sides of a thin piece of
wood. The sections are joined using a slip tongue-and
groove system, holding the panels in place. The product
is said to have 90% of the glide factor of real ice and has
a life of at least five years.
SUPER ICE AMERICA
USA
Accession no.651129
Item 259
Plastics News(USA)
9, No.16, 16th June 1997, p.25
PLASTICS HELP SNOWMOBILES LOSE
WEIGHT
Pryweiler J
In what could open the door to a sparkling new market
for gas-assisted injection moulding, Mid-Central Plastics
has started making snowmobile bumpers in long-fibrereinforced
thermoplastics for Arctic Cat. The front
bumpers, which went into production in April, represent
an uncommon marriage of long-fibre materials to gas-
© Copyright 2001Rapra Technology Limited 69

References and Abstracts
assisted moulding. In the past, reinforced fibres have been
considered by many industry experts to lack the impact
strength needed for a gas-assisted structural part. That
especially was true for parts operating at low winter
temperatures, according to Polymer Composites, the
compounder providing the bumper material. Arctic Cat,
based in Thief River Falls, Minnesota, is installing the
thermoplastic panels on about half of its snowmobiles
currently in production. The line includes its redesigned,
high-visibility ZR-Series snowcraft, which is used both
for competitive racing and recreation, and its economyminded
Jag and Puma models and ZL series. Details are
given.
MID-CENTRAL PLASTICS INC.; ARCTIC CAT INC.
USA
Accession no.651015
Item 260
Scrap Tire News
11, No.7, July 1997, p.1/4
MAINSTREAMING THE MARKET
This article looks at the many uses that recycled rubber is
being put to, by the Recycled Rubber Technologies
division of Emert Grinding & Machine, of Pennsylvania,
USA. Applications include: driveways, basketball courts,
playground surfaces, wheelchair ramps, stair surfaces and
decorative planters.
RECYCLED RUBBER TECHNOLOGIES; EMERT
GRINDING & MACHINE; DURA FLEX
USA
Accession no.650078
Item 261
Machine Design
69, No.14, 24th July 1997, p.70/4
ADVANCED MATERIALS TURN IN AN “ALL
PRO” PERFORMANCE
Hotter D S
Sporting goods increasingly employ sophisticated
materials. Hockey sticks use graphite composites to
transfer more energy to the puck and make sticks lighter
and easier to manoeuvre. Hangers moulded from Zytel
nylon attach in-line skate wheels to a metal sole plate.
Snowboards utilise RIM structural foam for the boards
and PU components for the binding systems. THV
fluoropolymer from Dyneon plays an important part as
window material on both kayak sails and tents. Buoyant
fly-fishing fins are being made using Engage polyolefin
elastomers.
USA
Accession no.645746
Item 262
Injection Molding
5, No.7, July 1997, p.58
SNOWSHOES EVOLVE TO THERMOPLASTIC
To make the sport of snowshoeing more accessible to the
general public, Redfeather Design has designed a
thermoplastic version of its traditional aluminium-framed
shoe and plans to retail it for half the price. The snowshoe,
called the Penguin, consists of an injection moulded frame
and a deck to which the shoes are bound. Triax, an ABS
blend from Bayer, was chosen for the frame, which
actually consists of two identical halves connected by a
living hinge. The shoe deck is made from Pellethane, a
TPU from Dow.
REDFEATHER DESIGN
USA
Accession no.645736
Item 263
Utech Asia ’97. Conference proceedings.
Suntec City, 18th-20th Feb.1997, Paper 58. 43C6
OUTSOLES MADE FROM SOLID
POLYURETHANE AS ADVANTAGEOUS
ALTERNATIVE TO RUBBER
Brecht K; Eschmeier T; Michels E
Bayer (Singapore) Pte.Ltd.
Edited by: Reed D; Ward S
(Crain Communications Ltd.; Rapra Technology Ltd.)
Bayflex TT is a new type of material for the manufacture
of solid outsoles. It joins Bayflex TR, whose typical
quality characteristics are outlined, as another polyetherbased
PU speciality in the Bayflex T product range.
Particular attention is given to the outstanding ageing
resistance of Bayflex TT, which ensures a consistently
high level of properties throughout its lengthy service life.
Of special interest to the shoe industry, which is
particularly influenced by fashion trends, is the wide range
of variations that this material allows in the production
of highly transparent outsoles. In addition to the much
sought-after ‘crepe look’, it is now possible to incorporate
visible functional elements into the sole material. Bayflex
TT can be produced in all the hardnesses typically required
for sole production (ranging from Shore A 55-80), and
when combined with mid-soles made from Bayflex T
systems, for example, constitutes an ideal soling material
for leisure, sports, fashion and work shoes.
SINGAPORE
Accession no.645389
Item 264
Plastics Technology
43, No.7, July 1997, p.35
CONCURRENT DESIGN, PROTOTYPING AND
TOOLING SPEED HOCKEY HELMET TO
MARKET
Ogando J
Design engineers at Itech Sport Products are acquainted
with the difficulties of designing a new hockey helmet.
Today’s helmet must have a feature-rich design with vents
70 © Copyright 2001 Rapra Technology Limited

References and Abstracts
and mechanical attachment points for face masks and
other accessories. Not only does it have to meet stringent
safety and ergonomic requirements, it also has to be
aesthetically pleasing. Helmet designs also have to get to
market quickly to compete in the time-sensitive sportinggoods
marketplace. Concurrent engineering is reported
to have helped Itech take a new hockey helmet from
concept to hard tooling in about six months. Its TH-70
helmet combines an injection moulded nylon shell with
EPP and EVA foams. With the help of ZYZX Designs,
Itech has made use of 3D CAD/CAM and rapid
prototyping to enable development of the helmet design,
injection tooling and EPP foam fabrication to proceed
simultaneously. The helmet design starts with the human
head, and the engineering team first had to bring all of
Itech’s research on head shapes and sizes into a 3D CAD
design environment - in this case, Cadkey software from
Baystate Technologies. Details are given.
ITECH SPORT PRODUCTS; BAYSTATE
TECHNOLOGIES INC.
CANADA; USA
Accession no.645318
Item 265
High Technology Composites in Modern Applications.
Symposium proceedings.
Corfu, 18th-22nd Sept.1995, p.257-65. 627
DESIGN AND PROTOTYPE MANUFACTURE OF
COMPOSITE BICYCLE FRAME
Katsanis D; Grove S M
Plymouth,University
(Patras,University)
The design and construction of a prototype cycle frame
intended for sprint racing is described. Preliminary
materials selection and detailed specification of composite
ply lay up sequence are based on the results of computeraided
laminate analysis and on static tests on representative
coupons. The frame design is based on the overall
requirements of aerodynamics (but without detailed
calculation), and the need for a low sideways area
concentrated close to the rear wheel. An important design
consideration is that the cycle should accept standard
fittings (wheels, forks, etc.) Initially, the bicycle is
conceived as a ‘one off’. The work is undertaken in the
context of an undergraduate student project, so that very
little funding is available for tooling. The frame is
manufactured by hand lay-up on a foam core - a laborious
process requiring hand finishing, but with low risk, allowing
continual monitoring of quality. Both wet lay-up and
carbon/epoxy prepreg materials are used, and vacuum bag
and autoclave processing give good laminate consolidation.
Aluminium bottom bracket shell, head tube and rear dropouts
are bonded to the foam core and integrally laminated
in the frame. The finished frame is subjected to a series of
static tests to verify its stiffness. Details are given. 13 refs.
EUROPEAN COMMUNITY; EUROPEAN UNION; UK;
WESTERN EUROPE
Accession no.645058
Item 266
Chemical and Engineering News
75, No.30, 28th July 1997, p.23-4
CARBON FIBRE MARKET REVS UP
Kirschner E M
The US carbon fibre industry, with government backing,
has been seeking new outlets for the specialty fibres. With
costs reduced through technologies and non-aerospace
grades with relaxed requirements, carbon fibres have
worked their way into sporting goods and industrial uses.
Zoltek has been building up capacity while other
companies were closing down. In 1995, the carbon fibre
market was 25 million lb and by 2000 the requirement
will be about 100 million lb. Grafil has been sold out for
the last 18 months. Its process improvements have
recently increased production to 1.75 million lb/year from
1.5 million lb.
USA
Accession no.642764
Item 267
Advanced Materials & Processes
151, No.6, June 1997, p.49-50
FIBRE-REINFORCED PLASTICS IMPROVE
SPORTING GOODS
Buck M; Dorf M
Quadrax Corp.
Fibre-reinforced thermoplastic composites are advanced
materials that have been used almost exclusively in such
military applications as F-22 fighters and Seawolf
submarines. These composites, typically nylon resins
reinforced with carbon fibres, became attractive for sports
goods when prices were slashed by as much as 97% in
1994. Composites priced at levels as high as 200 US
dollars/lb were cut to 26 US dollars/lb for carbon fibre/
nylon 6 resin composites, and to 6 US dollars/lb for glass/
PP composites, making commercially affordable material
properties previously unavailable in recreational
equipment. Sports goods can benefit from high
performance materials. In particular, it has been
determined that flat and tubular sporting goods
components are some of the easiest to manufacture. For
example, a lacrosse stick was in production within six
months of the first prototype. Other such products include
golf club shafts, bicycle handlebars, and hockey sticks.
The composite properties that are attractive for sports
equipment are reviewed, as are fabrication methods and
examples of composite products currently available.
USA
Accession no.642047
Item 268
Engineering Design
No.3, 1996, p.6-7
SAFER SHIFTS FOR BIKERS
Picou A
© Copyright 2001Rapra Technology Limited 71

References and Abstracts
DuPont France
This article highlights the use of two engineering polymers
from DuPont in the manufacture of gear shifters for
mountain bicycles manufactured by Sachs Industries, the
French bicycle supplier. The two materials selected are
Delrin (an acetal homopolymer resin) and Zytel (glass
fibre reinforced nylon). Full details are given.
EUROPEAN COMMUNITY; EUROPEAN UNION; FRANCE;
WESTERN EUROPE
Accession no.639506
Item 269
Engineering Design
No.3, 1996, p.5-6
SYSTEM FOR VISION
Zufferey P
DuPont International
This article highlights the selection of two engineering
polymers from DuPont for the manufacture of the new
“technical Vision System” winter sport’s goggles from
the Scott Sports Group. Both Delrin (an acetal
homopolymer resin) and Hytrel (a thermoplastic
elastomer) were chosen. Details are given.
SWITZERLAND; WESTERN EUROPE
Accession no.639505
Item 270
Kunststoffe Plast Europe
87, No.1, Jan.1997, p.26-7
English; German
SPEED ON ICE
Zimmermann D
This article explores the design and material development
for a composite ice skate blade. The demands on both the
design and the material are considered. The base material
chosen was an injection-mouldable, high-impact-resistant
polyamide with 35 percent GRP. Details are given.
FROGDESIGN; WST
EUROPEAN COMMUNITY; EUROPEAN UNION; GERMANY;
WESTERN EUROPE
Accession no.639463
Item 271
Plastics News(USA)
9, No.8, 21st April 1997, p.7
BRIT MOLDER SEEKS U.S. BACKERS FOR
GOLF SHAFT
Renstrom R
Jordan Golf, a subsidiary of Tamworth Plastics, is seeking
to establish business relationships with manufacturers of
golf clubs and shafts, particularly in the US, it is reported.
The company has developed a process by which a gasassisted
injection moulded part and a wrap are produced,
rather than the usual wrapping of pre-impregnated carbon
fibre and epoxy around a removable mandrel. The
moulded piece takes the place of a mandrel, but is not
removed. Advantages of the design are discussed, together
with the efforts of the company to seek investment.
TAMWORTH PLASTICS LTD.; JORDAN GOLF
LTD.; DIAMOND GOLF LTD.
EUROPEAN COMMUNITY; EUROPEAN UNION; UK; USA;
WESTERN EUROPE
Accession no.637857
Item 272
Rubber India
48, No.12, Dec.1996, p.55
COSCO: CATERING SPORTS GOODS MARKET
This article focuses the spotlight on Cosco (India) Ltd.,
winner of the AIRIA export award for sports goods for
the 1995-96 period. The company manufactures basket
balls, footballs, rugby balls, hand-balls, net-balls, water
polo balls, tennis balls, and table tennis balls. The article
also includes a brief company profile.
COSCO (INDIA) LTD.
AUSTRALIA; EUROPEAN COMMUNITY; EUROPEAN UNION;
FRANCE; GERMANY; GREECE; INDIA; ITALY; JAPAN; NEW
ZEALAND; PORTUGAL; SOUTH AMERICA; UK; USA;
WESTERN EUROPE
Accession no.636370
Item 273
151st ACS Rubber Division Meeting, Spring 1997,
Conference Preprints.
Anaheim, Ca., 6th-9th May 1997, Paper 46, pp.7. 012
POLYURETHANE RUBBER OUTSOLES FOR
ATHLETIC FOOTWEAR
Ahnemiller J
TSE Industries Inc.
(ACS,Rubber Div.)
Applications of polyether- and polyester-urethane
elastomers in abrasion resistant and transparent outsoles
for sports shoes are reviewed.
USA
Accession no.636054
Item 274
151st ACS Rubber Division Meeting, Spring 1997,
Conference Preprints.
Anaheim, Ca., 6th-9th May 1997, Paper 45, pp.14. 012
DEVELOPMENT OF AN OUTSOLE COMPOUND
FOR OUTDOOR FOOTWEAR
Winston J; Ames K
Nike Inc.
(ACS,Rubber Div.)
The development of an outsole compound for outdoor
footwear requiring high dynamic wet traction and
adequate abrasion resistance is discussed. Initial materials
screening was undertaken by laboratory testing a number
of formulations based on standard thermoset elastomers
such as polybutadiene, SBR, NR, nitrile rubber, EPDM,
72 © Copyright 2001 Rapra Technology Limited

References and Abstracts
polychloroprene and halobutyl rubber. This was followed
by laboratory tests on production grade prototype products
and field tests on footwear with soles made from the most
promising materials. The laboratory tests included
mechanical traction tests on materials specimens and
shoes on wet and dry rock surfaces yielding dynamic
coefficient of friction data. These tests accurately
predicted the final field test results. 1 ref.
USA
Accession no.636053
Item 275
151st ACS Rubber Division Meeting, Spring 1997,
Conference Preprints.
Anaheim, Ca., 6th-9th May 1997, Paper 44, pp.15. 012
DESIGNING FOR APPROPRIATE ATHLETIC
SHOE OUTSOLE TRACTION
Valiant G A
Nike Sport Research Laboratory
(ACS,Rubber Div.)
An examination is made of methods for determining the
traction requirements for sports shoe outsoles by
measuring shear and normal ground reaction force
components with a force measurement platform covered
with playing surfaces. Ratios formed from the force
components define the minimum coefficient of friction
(CoF). Results are presented of studies using a method
which loads shoes with adjustable vertical forces
exceeding body weight, pulls them at high sliding
velocities along any horizontal axis, and accommodates
various playing surfaces rigidly mounted on a force
platform. CoF is calculated from sampled friction and
normal forces. Shoes are also rotated about a vertical axis
to quantify frictional resistance to rotation. 10 refs.
USA
Accession no.636052
Item 276
151st ACS Rubber Division Meeting, Spring 1997,
Conference Preprints.
Anaheim, Ca., 6th-9th May 1997, Paper 43, pp.7. 012
THERMOPLASTIC RUBBER AS A SHOE
SOLING
Carter A R; Turner R H
SATRA Footwear Technology Centre
(ACS,Rubber Div.)
Applications of styrene-butadiene-styrene block copolymer
thermoplastic elastomers in shoe soles are examined.
Injection moulding conditions and compounding
techniques aimed at optimising properties are discussed,
and methods for measuring wear resistance, coefficient of
friction and flex cracking resistance are described. A surface
chlorination process developed by SATRA to promote
bonding with PU adhesives is also outlined. 1 ref.
EUROPEAN COMMUNITY; EUROPEAN UNION; UK; USA;
WESTERN EUROPE
Accession no.636051
Item 277
Shell Chemicals Europe Magazine
No.8, April 1997, p.26
IN THE SWING
The standard method of producing graphite fibrereinforced
golf clubs is to wind prepreg carbon fibre tape
around a steel mandrel; the mandrel is then removed.
Tamworth Plastics has opted for an alternative approach
of making an injection moulded core, winding prepreg
carbon fibre tape around this, but leaving the injection
moulded component in place to form an integral part of
the shaft. The use of gas-assisted injection moulding is
critical to the success of this approach; details are given.
TAMWORTH PLASTICS LTD.
USA
Accession no.635788
Item 278
Injection Moulding International
2, No.2, April/May 1997, p.25-7
SPEED ON ICE: DESIGN AND MATERIAL
DEVELOPMENT FOR AN ICE SKATE BLADE
The rapid growth in material and processing technology
makes it essential for plastics manufacturers,
mouldmakers and designers to keep in close touch. In the
development of plastics components, the properties of the
material and its processing behaviour should be taken into
account right at the draft design stage. The material and
technological studies of Frogdesign, a design agency in
Altensteig, Germany, and of WST, a manufacturer of
sports articles in Villingen-Schwenningen, Germany, led
to the selection of a suitable plastic and to a creative design
for an ice skate blade. The use of an injection mouldable,
high-impact polyamide with 35% glass fibre
reinforcement to produce the component is described.
FROGDESIGN GMBH; FROGDESIGN INC.
EUROPEAN COMMUNITY; EUROPEAN UNION; GERMANY;
WESTERN EUROPE
Accession no.635781
Item 279
Scrap Tire News
11, No.5, May 1997, p.8
CROWN 111 TOP DRESSING EXPECTED TO
USE 10% OF 1997 CRUMB RUBBER
PRODUCTION
Michigan State University’s patented use of crumb rubber
as a turf top dressing is described, and the success of its
exclusive license JaiTire Industries is discussed. Over two
million pounds of crumb rubber from recycled tyres has
been sold by JaiTire under its Crown 111 tradename,
which is more than 1% of the 1996 national production.
1997 sales are expected to consume up to 10% of the
national production.
MICHIGAN,STATE UNIVERSITY; JAITIRE
INDUSTRIES
© Copyright 2001Rapra Technology Limited 73

References and Abstracts
USA
Accession no.633414
Item 280
Plastics and Rubber Asia
12, No.70, April 1997, p.46
OIMA TARGETS SPORTS GOODS
The formation of injection moulding machine
manufacturer Oima in 1976 is reported to have originated
from the idea of producing a machine to mould ski boot
shells. This business developed so successfully that the
company has supplied 90% of the machines in Italy that
are used for ski boot production in an industry
established in the town of Montebelluna, near to the
Oima factory. Montebelluna is recognised as the
European centre for moulding of ski boot shells in
thermoplastic PU on Oima’s Lotus range of vertical,
clamp injection machines. Current output of Lotus
usually totals around 15,20 machines a year; the
company believes that a big market for the machines is
likely to develop in Asia. The company expects much
of the global demand for sports goods, such as ski boots,
moulded ice hockey boots and roller blade footwear, to
move to Asia and it is keen to obtain as much of the
investment in new machinery as possible for the Lotus
series, which is capable of the two-colour production
that this fashion conscious market demands. As a result,
Oima is looking for a local partner, either in China or
Japan, to help it establish a strong presence in an industry
that has the potential for 100 machines a year. Details
are given.
OIMA SPA
CHINA; EUROPEAN COMMUNITY; EUROPEAN UNION;
ITALY; JAPAN; WESTERN EUROPE
Accession no.631969
Item 281
Plastics Progress
7, No.2, Fall 1996, p.6-7
FOAM PRODUCT LINE HAS WIDE VARIETY
OF END USES
Dylite expandable PS (EPS) and Arcel expandable
ethylene-styrene copolymer are reported to comprise the
foam product line that Nova Chemicals has acquired from
Arco Chemical. These two materials have broad utility
and are used extensively in a spectrum of applications.
Dylite EPS is used in foam beverage cups, protective
packaging of many consumer goods, and insulation and
flotation applications. The cost-effective materials offers
excellent impact and thermal performance. Tough yet
flexible Arcel foam is used for reusable packaging,
helmets, jet skis and ‘boogie boards’ - applications where
durability is a key requirement. Details are given.
NOVA CHEMICALS; ARCO CHEMICAL CO.
USA
Accession no.630715
Item 282
Modern Tire Dealer
78, No.2, Feb.1997, p.16/20
WAVING THE FLAGSHIP MANUFACTURERS
SALUTE THEIR HIGH PERFORMANCE TYRES
Ulrich R
A flagship brand is said to seldom make much of an impact
in a tyre manufacturer’s overall sales. It is often the
company’s high profile, ultra-high performance niche tyre.
Nonetheless, the flagship brand sends a positive message
to the tyre-buying public about every tyre in the line, from
premium to entry level. During February 1997, Goodyear
is drawing attention to its new flagship brand. The Eagle
F-1, for Formula One, high performance tyre line is said to
signify the pinnacle of Goodyear high performance equity.
Yokohama Tire, another domestic tyre marketer with
significant high performance market share, introduced its
AVS S1 during Automotive Aftermarket Industry Week in
Las Vegas in 1996. It will be available to independent
dealers next month. Both introductions follow on the heels
of similar announcements from Michelin; details are given.
GOODYEAR TIRE & RUBBER CO.; YOKOHAMA
TIRE CORP.; MICHELIN GROUP
USA
Accession no.630711
Item 283
Reinforced Plastics
41, No.4, April 1997, p.28
RTM FORMS CARBON FIBRE BICYCLE
FRAMES
Diamond Back Racing is using carbon fibre technology
to produce frames for its Vertex mountain bikes. The frame
features carbon fibre tubes, manufactured by resin transfer
moulding, which are assembled using TIG-welding
technology. Liquid Control’s Compact Multiflow RTM
machine is used to meter and mix an epoxy resin and
hardener. The mixed epoxy is injected into the mould at
very precise process conditions including temperature,
pressure and flow rate.
LIQUID CONTROL CORP.
USA
Accession no.630314
Item 284
Modern Plastics International
27, No.3, March 1997, p.56-9
HIGH-PERFORMANCE MARKETS DRIVE TPU
INNOVATION, GROWTH
O’Neill M
Thermoplastic urethanes bridge the gap between rigid
plastics and elastomers, and range from hard and stiff to soft
and flexible. Dureflex 7018 greenhouse film from Bayer
has a lifetime of some 10 years and has 95% light
transmittance. Breathability of TPU films is exploited in
hospital bed coverings, to allow perspiration to disperse and
74 © Copyright 2001 Rapra Technology Limited

References and Abstracts
to decrease the incidence of pressure sores. Low-temperature
flexible ski boot shells can be injection moulded from
polyester or polyether TPUs. The abrasion resistance of TPU
has had a great impact on the design of high-performance
wheel and bearing structures of in-line skates.
WORLD
Accession no.628903
Item 285
International Polymer Science and Technology
23, No.9, 1996, p.T/21-7
FIBRE REINFORCED COMPOSITES IN
LEISURE PRODUCTS
Heitz E
Parts made from fibre composites have been used in leisure
and sports products for a long time. Their low weight in
conjunction with the ability to absorb high forces means
preference is given to fibre-reinforced plastics. Ingenious
designs and special production procedures are used to
produce high-tech products for this area of application.
Bicycle production is increasingly making use of parts made
from fibre composites based on aeronautical engineering
principles; high standards found in this industry have now
been transferred to the civilian and leisure sectors. Translation
of Gummi Fasern Kunststoffe, No.8, 1996, p.646
EUROPEAN COMMUNITY; EUROPEAN UNION; GERMANY;
WESTERN EUROPE
Accession no.619859
Item 286
Materials World
5, No.1, Jan.1997, p.10-1
WINNING PITCH
Spendlove P; Read J
Sarco Ltd.; Nottingham,University
Constructing a range of sports and safety surfaces is easier,
quicker, and cheaper using a new impact absorbing asphalt
based on reclaimed rubber. Traditional surfaces have been
achieved by laying a conventional asphalt to provide a
stable and level base upon which to lay a resin-bound rubber
shock pad that provides the impact absorbing properties of
the structure. A sand-filled synthetic grass carpet is laid
over the shock pad to provide the playing surface. By
developing an impact absorbing asphalt the two processes
are reduced to one which is considerably cheaper.
EUROPEAN COMMUNITY; EUROPEAN UNION; UK;
WESTERN EUROPE
Accession no.618654
Item 287
Injection Molding
4, No.12, Dec.1996, p.80/2
BAIT AND SWITCH, METALLOCENE-STYLE
Maniscalco M
Metallocenes, a relatively new class of polymer catalysts,
are reported to be currently among the hottest topics with
material suppliers. But what do resins that use metallocene
catalysts have to offer moulders? Huston Plastics is using
a polyolefin elastomer - Engage from DuPont Dow
Elastomers - to replace a material formerly used to mould
fins used for fly fishing, which deteriorated on exposure
to petroleum. This ethylene octene copolymer material is
produced via Dow’s Insite technology, which includes
both process expertise and metallocene catalysts. Details
are given.
DUPONT DOW ELASTOMERS; HUSTON
PLASTICS
USA
Accession no.618646
Item 288
Rubber and Plastics News
26, No.9, 2nd Dec.1996, p.7
UNIVERSAL TURF BUYS SHREDDED RUBBER
FIRM
Higley J
It is announced that Universal Turf Inc. of the USA has
expanded its business by purchasing In En Tec Inc. to
meet its needs for shredded rubber. Background details
on the companies and the agreement are provided.
UNIVERSAL TURF INC.; IN EN TEC INC.
USA
Accession no.617975
Item 289
Cellular Polymers
15, No.6, 1996, p.436-49
RECYCLING OF AUTOMOTIVE FOAM/FABRIC
LAMINATES BY INCORPORATION INTO
REBONDED POLYURETHANE FOAM
Sims G L A; Angus M W
Manchester,University; UMIST
PU foam waste has, for many years, been manufactured
into rebonded foam for use in energy absorbance
applications such as vibration and sound damping,
sportsground surfacing and carpet underlay. Recent
legislation places more responsibility on manufacturers
to recycle rather than landfill polymeric waste, and is of
major importance for PU components and fabric laminates
used in the automotive industry. An investigation of the
incorporation of polyester PU foam and foam/fabric
laminates into rebonded foam using a prepolymer based
on MDI is presented. Compression and fatigue properties
of rebonded foam formed from granulated PU foam bound
with prepolymer additions of 1-30% were determined in
the density range 50-150 kg m-3. The effect of
incorporating granulated PU foam/fabric laminate
recycled from automotive seat covers into the chip foam
was also assessed. 7 refs.
EUROPEAN COMMUNITY; EUROPEAN UNION; UK;
WESTERN EUROPE
Accession no.617494
© Copyright 2001Rapra Technology Limited 75

References and Abstracts
Item 290
Kunststoffe Plast Europe
86, No.11, Nov.1996, p.15-6
CREATIVE DESIGN REQUIRED
Creative design solutions are particularly required in the
automotive, transport and sports sectors. They emphasise
the individuality of the customer and so gain market
acceptance. At the same time, they fix the corporate identity
of branded products permanently in the memory. A liquid
resin system based on dicyclopentadiene (DCPD), launched
on the European market at the beginning of the 1990s, offers
interesting and cost-optimised design options, particularly
for large-volume components with long, complicated flow
paths. Details are given.
GOODRICH B.F.,CO.
EUROPEAN COMMUNITY; EUROPEAN UNION; GERMANY;
USA; WESTERN EUROPE
Accession no.616971
Item 291
Rubber Trends
No.4, 1996, p.31-7
NON-TYRE RUBBER GOODS INDUSTRY IN
INDONESIA
Production of NR in Indonesia increased to almost 1.5m
tons in 1995, making it the world’s second largest
producer, accounting for almost 25% of total world
production in 1995. Investments in the industry are
stimulating further growth in output, which could
approach 2m tons by 2020. Exports continue to account
for more than 90% of output. Indonesia now produces a
range of rubber-based intermediate and consumer goods
for the domestic and export markets. Growth in non-tyre
manufacturing has been led by the sports shoe industry,
dipped latex goods and rubber products such as hoses,
belts, seals and sports equipment.
INDONESIA
Accession no.616003
Item 292
Reinforced Plastics
40, No.12, Dec.1996, p.9
COMPOSITES IMPROVE SNOWBOARDS’
STRENGTH AND CONTROL
Snowboard manufacturers are turning to the same
advanced composite materials, processes and test methods
that are used to fabricate other sports equipment.
Aggression Snowboards makes use of TDR 1100-11
epoxy resin adhesive from Ciba-Geigy. Burton
Snowboards has developed high performance bindings
using DuPont’s Tepex thermoplastic composite material.
Tepex are custom-made sheet materials with glass, Kevlar
or carbon fibres combined with thermoplastic resin such
as polyamide, PETP or PBTP.
CIBA-GEIGY CORP.; AGGRESSION
SNOWBOARDS; DUPONT CO.; BURTON
SNOWBOARDS CORP.
USA
Accession no.615847
Item 293
European Plastics News
23, No.11, Dec.1996, p.19
DRIVING FORCE
Anscombe N
Tamworth Plastics has worked with LNP Engineering
Thermoplastics to develop a golf club shaft produced
using gas-assisted injection moulding. Tests have shown
that the resulting club not only hits golf balls further, but
also straighter than steel and graphite clubs. Tamworth
Plastics uses Cinpres gas-assisted injection moulding
technology to make the shaft core. The material is a carbon
fibre reinforced nylon, with fibres longer than 2mm.
TAMWORTH PLASTICS LTD.
EUROPEAN COMMUNITY; EUROPEAN UNION; UK;
WESTERN EUROPE
Accession no.614653
Item 294
Plastics World
54, No.11, Nov.1996, p.15-6
APPLAUSE FOR THE PARTS ON PARADE
Schut J H
This article outlines thermoforming’s technical awards
for excellence announced at the Society of Plastics
Engineers Thermoforming Division’s annual technical
conference. These include an ABS enclosure for a lasersurgery
device, a deep-drawn twin-sheet part for an
exercise machine console, control panel covers for an X-
ray table, a two-fold thin-walled package for printed
circuit boards and an instrument panel for a GM truck.
American Catalytic Technologies showed a new fluid/
gas proportional valve for programmable temperature
control of gas catalytic heaters.
USA
Accession no.614625
Item 295
Plastics Formulating & Compounding
2, No.4, July/Aug.1996, p.42-3
AQC AND THE OLYMPICS
This article investigates the use of “Database for Quality”
software by A. Schulman Inc. of the USA, the compounder
that provided the coloured swimming pool lane-markers for
the Atlanta Olympic Games. Schulman has implemented
the automated quality management system software in five
of its eleven plants, to store results of quality tests so that
they are immediately available to everyone at the company.
SCHULMAN A.,INC.
USA
Accession no.614486
76 © Copyright 2001 Rapra Technology Limited

References and Abstracts
Item 296
Annales des Composites
No.2, 1995, p.97-108
French
COMPOSITE STRUCTURE FOR A CLASSICAL
DANCE FLOOR
Landjerit B; Simon G; Barrey E
CER-ENSAM; INRA
Three types of composite structure, i.e. wooden beams
and plates with foam supports and sandwich structures
consisting of glass fibre-reinforced epoxy resin skins with
foam or honeycomb cores, were evaluated for use as
classical dance floors. The investigation involved
computer modelling and accelerometry studies, and the
vibration frequency and response to dynamic loading of
the different floors were analysed. The combination of
wooden beams and plates with elastic and vibration
damping supports gave floors with good stiffness and
damping characteristics. Sandwich structures with
honeycomb cores also gave good results, but at a higher
cost compared with wooden composites. Results for foam
core sandwich structures indicated that they were not as
suited to this application. 6 refs.
ANGST & PFISTER
EUROPEAN COMMUNITY; EUROPEAN UNION; FRANCE;
GERMANY; WESTERN EUROPE
Accession no.611892
Item 297
Plastics News(USA)
8, No.32, 7th Oct.1996, p.35
PLASTICS STILL APPEAL TO BICYCLE
MAKERS
Renstrom R
Plastic applications are reported to be continuing to grow,
but exhibitors at the Interbike international bicycle
exposition displayed fewer material innovations than a
few years ago. An outline of developments in this area is
presented.
TREK BICYCLES; GIANT BICYCLE INC.;
VIATECH INC.; BONTRAGER CYCLES; SHIMANO
INC.; QUALITY COMPOSITES INC.
USA
Accession no.610112
Item 298
Plastics News(USA)
8, No.32, 7th Oct.1996, p.19
OLYMPIC GROUP CLARIFIES STANCE ON
PVC
Tilley K
Australia’s Olympic Coordination Authority has refused
to rule out the use of PVC in facilities constructed for the
2000 Olympics, despite a restriction included in
environmental guidelines used to secure the Olympic bid.
Sydney’s environmental guidelines for the 2000 Olympics
include minimising, and ideally avoiding, the use of
chlorine-based products such as PVC. Australia’s plastics
industry was angered by the specific mention of PVC,
which it blamed on Greenpeace Australia’s long-running
campaign to ban PVC. Following requests from the
plastics industry, the Sydney-based Olympic Coordination
Authority clarified its position. In a statement, OCA said
all building materials for Olympics facilities will be
subject to impartial environmental scrutiny. All building
components will be uniformly subject to life-cycle costing
and consideration of environmental implications. Details
are given.
AUSTRALIA,OLYMPIC COORDINATION
AUTHORITY
AUSTRALIA
Accession no.610106
Item 299
Rubber and Plastics News
26, No.5, 7th Oct.1996, p.23
RUBBER DRESSING TOUGHENS FAIRWAYS
Sowa S
Denver-based scrap tyre processing and marketing
company, Jai Tire Industries, believes that it has found a
way to reduce the competition in the turf maintenance
industry. It holds the marketing rights to what is thought
to be a high-value use for crumb rubber. Jai Tire sells the
recycled scrap tyre material to golf course and athletic
field managers for use as a turf grass top-dressing. In hightraffic
areas, the application of crumb rubber above the
soil line protects the crown of the plant’s root system and
reduces underlying compaction and scarring of the blade
from the abrasiveness of sand. Details are given.
JAI TIRE INDUSTRIES INC.
USA
Accession no.610078
Item 300
Plastics News(USA)
8, No.23, 5th Aug.1996, p.15
ROTO PLASTICS MAKES HEADWAY IN
HELMETS
Bregar B
This article is a special report on the manufacture of
seamless football helmet bladders. Rotational moulding is
the only method of making these seamless bladders, and
Roto Plastics Corp. of the USA is the only supplier. The
process is highlighted, and the company briefly profiled.
ROTOPLASTICS CORP.
USA
Accession no.609865
Item 301
Plastics News(USA)
8, No.29, 16th Sept.1996, p.8
© Copyright 2001Rapra Technology Limited 77

References and Abstracts
QUADRAX SWINGS INTO GOLF WITH
THERMOPLASTIC SHAFT
Renstrom R
Quadrax, a defence supplier has expanded into high
performance thermoplastic golf shafts, and its Quadrax
West Coast subsidiary has established a development
centre and production line in Vista, Calif., near operations
of major golf equipment manufacturers, it is reported.
Details are given of the facilities capacities, and the
contract with Taylor Made Golf Co., to develop new golf
products that will use Quadrax’s unidirectional fibrereinforced
thermoplastic tape.
QUADRAX CORP.
USA
Accession no.609497
Item 302
Plastics News(USA)
8, No.29, 16th Sept.1996, p.4
PLASTICS HELP BUILD STRONG BODYBOARD
MARKET
Renstrom R
The US and Australian bodyboard markets are examined,
and the growth of plastic boards is discussed with
comments from suppliers. The standard polyethylene
foams are being replaced by PE hybrids as well as
polypropylenes and crosslinked polystyrenes, it is
reported. Details are given of bodyboards displayed at
the Action Sports Retailer trade exposition in San Diego.
USA
Accession no.609492
Item 303
Plastics News(USA)
8, No.29, 16th Sept.1996, p.4/67
NOVICE SKATEBOARDS MAY BE PLASTICS’
NICHE
Renstrom R
The US skateboard market is examined, and the growth of
plastic boards is discussed. Details are included of various
manufacturers of skateboards, with comments on the
market, designs and sales. Plastic skateboards may find a
market in the beginner’s boards, it is claimed, with a cheaper
injection moulded board but with the same quality wheels,
bushings and grip tape as in the wooden counterparts.
INTERNATIONAL ASSOCIATION OF
SKATEBOARD COS.
USA
Accession no.609491
Item 304
Machine Design
68, No.19, 24th Oct.1996, p.53-6
FOAM GOES FROM BUMPERS TO BIKE
HELMETS
Luhtanen M
BASF Corp.
The advantages offered by the use of expanded
polypropylene in automotive bumper cores and other
applications are considered, and its properties are
compared with other materials traditionally used in such
applications in terms of impact strength, energy
absorption, resilience, and compressive strength.
USA
Accession no.609411
Item 305
Chimica e l’industria
77, No.6, June 1995, p.377-82
Italian
CHEMICAL AND PHYSICOCHEMICAL
ASPECTS OF THE SKI
Albanesi G
Parma,University
An examination is made of factors affecting the sliding
on snow of materials used in skis, with particular reference
to HDPE. The influence of waxes is also discussed. Data
are presented for the coefficients of friction of a number
of plastics and other materials. 10 refs.
FEDERAZIONE ITALIANA SPORT INVERNALI
EUROPEAN COMMUNITY; EUROPEAN UNION; ITALY;
WESTERN EUROPE
Accession no.609294
Item 306
Utech 96. Conference Proceedings.
Hague, 26th-28th March 1996, Paper 47. pp.6. 43C6
NOVEL POLYURETHANES FOOTWEAR
TECHNOLOGY
Bagaglio G; Limerkens N; Gugler K
ICI Polyurethanes
(Crain Communications Ltd.; Rapra Technology Ltd.)
A new family of water blown systems for PU-based
footwear based on Suprasec 2433, a multi-purpose soft
block MDI prepolymer, has been introduced onto the
market by ICI Polyurethanes. The synergistic
combination of Suprasec 2433 with both polyether and
polyester formulations has provided a number of
benefits. The performance of this technology after two
years of field experience is discussed in detail. Polyetherbased
unit soles made with this technology, as well as
direct-injection, single- and double-density soles for
fashion, casual and sports shoes have a good aesthetic
appeal, a natural feel and high definition. Sole failure
has been virtually eliminated by this technology. The
technology has also been used for heavy duty
applications such as work boots, agricultural boots,
Wellington boots and all-PU clogs. Improvements to low
temperature flex life and hydrolytic stability have been
made and microbiological resistance can be achieved
78 © Copyright 2001 Rapra Technology Limited

References and Abstracts
without using potentially dangerous additives. Future
developments are discussed. 2 refs.
BELGIUM; EUROPEAN COMMUNITY; EUROPEAN UNION;
WESTERN EUROPE
Accession no.608987
Item 307
Utech 96. Conference Proceedings.
Hague, 26th-28th March 1996, Paper 41, pp.8. 43C6
MATERIALS CHARACTERISATION IN THE
DESIGN OF CASTABLE POLYURETHANE
PARTS
Palinkas R
Uniroyal Chemical Co.
(Crain Communications Ltd.; Rapra Technology Ltd.)
The process of choosing a cast PU elastomer for a given
application is discussed. Various standard physical
properties are described, and their usefulness for
applications engineers is evaluated. Examples of impact
bumpers, skate wheels and solid industrial tyres are given
to show that choosing the appropriate material for a given
application involves identifying the exact performance
criteria, establishing the correct material properties which
optimise performance and evaluating the properties to get
the best balance for the application. 3 refs.
USA
Accession no.608981
Item 308
Injection Molding
4, No.9, Sept.1996, p.61/6
MARKET FOCUS
A product review is presented which gives details of new
product designs in the fields of sports and leisure. The
use of plastic materials and processing techniques have
in each case improved the product. Examples cited include
a kayak paddle, a safety mask, a fish hook removing tool,
a scuba mask, a plastic bicycle hub, a polycarbonate outer
and brass inner golf club face, fish lures, a hockey visor,
and a nylon, two-way adjustable golf club.
USA
Accession no.608147
Item 309
Plastics News(USA)
8, No.24, 12th Aug.1996, p.1/12
GRIPPING GOLF STORY
Sarkis Neaville L
It is reported that when Softspikes introduced the first
removable plastic cleat for golf shoes four years ago, it
spurred a new, controversial market in golf. It’s a classic
story of plastic (cleat) versus metal (spike), with plastic
gaining ground as more and more golf courses ban metal
spiked golf shoes due to turf damage. An overview of the
market is presented.
SOFTSPIKES INC.; MACNEILL ENGINEERING
WORLDWIDE INC.; TRISPORT LTD.
EUROPEAN COMMUNITY; EUROPEAN UNION; UK; USA;
WESTERN EUROPE
Accession no.607416
Item 310
Shell Chemicals Europe Magazine
No.6, Sept.1996, p.16-7
IT’S ALL IN THE BOUNCE
Tretorn, a Swedish company, produces some of the
world’s most advanced tennis balls at a manufacturing
plant in Ireland. The pressureless ball gets its performance
properties from the rubber and resin compound used in
its construction. Shell Chemicals supplies butadiene
rubber to the Tretorn plant. During manufacture, the
rubber is processed into pellets, each of which becomes
one half of a tennis ball. The outer felt covering is a special
mix of wool, cotton and synthetic fibres.
SHELL CHEMICALS EUROPE; TRETORN
EUROPEAN COMMUNITY; EUROPEAN UNION; IRELAND;
WESTERN EUROPE
Accession no.606045
Item 311
SAMPE Journal
32, No.4, July-Aug.1996, p.30-6
HOW MATERIALS SELECTION AND
MANUFACTURING METHODS INFLUENCE
PRODUCT DESIGN IN THE BENETTON
SPORTSYSTEM
Davis S
Benetton Sportsystem
The Benetton Sportsystem is a collection of industryleading
companies marketing state-of-the-art sporting
goods products. A general overview is presented of the
uniqueness of product design, material selection criteria,
and manufacturing methods specific to each type of
product. Emphasis is placed on Prince racquet products,
Nordica ski boots, Rollerblade inline skates, Kastle skis
and Asolo hiking boots.
PRINCE SPORTS GROUP INC.
AUSTRIA; EUROPEAN COMMUNITY; EUROPEAN UNION;
ITALY; USA; WESTERN EUROPE
Accession no.604716
Item 312
SAMPE Journal
32, No.4, July-Aug.1996, p.12-9
21ST CENTURY MARKET OPPORTUNITIES
FOR ADVANCED FIBRES AND COMPOSITES
Segal C L
OMNIA
High-strength, high-modulus fibres based upon either
carbon, organic polymers, or ceramics are relatively new
materials. Full-scale commercial production of these
© Copyright 2001Rapra Technology Limited 79

References and Abstracts
fibres began within the last 25 years. Current sales of
advanced fibres are measured in thousands of tons per
year, not in hundreds of thousands of tons per year, as are
sales of glass structural fibres. Selling prices are measured
in tens of dollars per pound as compared to dollars per
pound for glass fibres. Therefore, advanced fibres must
still be considered as speciality materials that will be
selected based only upon their high performance. While
much thanks is due to the aerospace and sporting goods
industries for keeping the interest in advanced fibres and
composites alive, it is generally agreed that the market
will not grow (and prices will not decline) until these fibres
are accepted in the industrial market. Industrial market
opportunities are identified for advanced fibres and
composites in the next century. Specific, potential
applications are cited, and the estimated volumes and
values of these applications given.
USA
Accession no.604715
Item 313
Modern Plastics International
26, No.9, Sept.1996, p.33-4
BIKE OF THE FUTURE MAY BE CHEAP,
UNIVERSAL AND PLASTIC
Seirer A
A composite bicycle took first place in the 1996 Owens-
Corning Global Design Challenge. A team from the
University of Sao Paulo designed a bike, named the
Kangaroo for the shape of its frame, which can be adjusted
to fit most riders and could be made available to
consumers for less than 100 US dollars. The bicycle frame,
rear-arm and seat-pillar are moulded in SMC 30% glass
fibre-reinforced polyester. Ross Bicycles recently
launched a thermoplastic PU bike reinforced with 40%
carbon fibre and long glass fibre.
OWENS-CORNING FIBERGLAS CORP.
USA
Accession no.604039
Item 314
Plastics in Canada
3, No.1, Feb/March 1996, p.69
TRICOR FILLS CANADIAN VOID IN GOLF
BALL MANUFACTURING
Tricor Golf Ball Manufacturing is reported to have
become Canada’s only golf ball producer. Tricor’s first
golf balls came off the company’s used, 250 ton Trueblood
vertical injection moulding machine in December. Plans
are to produce 3,000-5,000 balls daily for the domestic
and American markets. Like so many plastics
entrepreneurs, Talarico and his four partners Frank Bosco,
Tony Gigliotti, Nick Aiello, and a silent partner were not
moulders when they decided to enter this competitive
field. But they did see an opportunity. Some company
information is presented.
TRICOR GOLF BALL MANUFACTURING INC.;
GENESIS PLASTIC MACHINERY LTD.
CANADA
Accession no.603230
Item 315
Advanced Composites Bulletin
Sept.1996, p.4
BALSA CORE GIVES SUPERIOR DURABILITY
Marine surveyor David Pascoe of Fort Lauderdale,
Florida, USA, is reported to have determined that
composite boats with a sandwich construction
incorporating balsa cores are better in resistance damage
than boats with monolithic hulls or cored with foam
plastics. Baltek is aggressively promoting the use of balsa
cores in the marine industry. An emerging trend seems to
be the adoption of balsa core construction when a
company uses the Seeman Composites resin infusion
moulding process (SCRIMP). SCRIMP is a variant of
resin transfer moulding adapted for large scale structures
such as boat hulls. A good example of the simultaneous
use of SCRIMP and balsa is provided by Hinckley of
Southwest Harbor, Maine. Details are given.
BALTEK CORP.
USA
Accession no.603056
Item 316
Advanced Materials Newsletter
18, No.14, Iss.405, 22nd July 1996, p.2-3
COMPOSITES GOLF SHAFTS INCREASE
DOMINATION OF CAPACITY AND SUPPLY
At the local SAMPE chapter meeting held recently in
San Diego, JCT Sports reported on some market research
into the composites golf market. The area from Los
Angeles to Tijuana, mainly San Diego County, is known
widely as the Golf Coast of America, because all of the
companies in shaft and club manufacturing are located
here - Aidila and Aidila Mexico, UniFiber, HST,
Grafalloy, Quadrax, AJT, West Coast Composites,
Callaway, Taylor Made, Cobra, Apollo Golf, Composites
Dynamics, Easton Composites, Fujikura Composites
America, Players Golf, and more. Callaway may reach
700 million US dollars in 1996 golf equipment sales,
while Aidila is expected to make 58 million and HST
50 million US dollars in composites shaft sales. Aidila
alone makes over 400,000 graphite fibre and epoxy
shafts per month. Production may be in the region of
143,000,000 annually. This includes shafts made with
all materials. However, the demand for shafts currently
is estimated at only 55% of that figure, which might
explain the dramatic price drop in composite shafts over
the last year. Details are given.
SAMPE
USA; WORLD
Accession no.599048
80 © Copyright 2001 Rapra Technology Limited

References and Abstracts
Item 317
Plastics News(USA)
8, No.17, 24th June 1996, p.1/31
COMPOSITE BLADE’S DESIGN MAKES FOR
SMOOTHER SKATING
Couretas J
A German inventor with a love for the game of ice hockey
has come up with a novel design for a skate blade that never
needs sharpening. After a decade of development work,
Holger Wuerthner introduced the new T’blade design in 1996
at a sporting goods trade fair in Munich, Germany, and a
rapid prototyping exhibition near Detroit. The T’blade,
marketed by Wuerthner Sport-Technologie of Germany is a
novel, three-piece design incorporating a replaceable, plasticmetal
blade secured to an injection moulded base with a
metal stabiliser. The T’blade skater can change the blade by
removing the stabilising rib, which is attached to the blade
base with six screws. Details are given.
WUERTHNER SPORT-TECHNOLOGIE
EUROPEAN COMMUNITY; EUROPEAN UNION; GERMANY;
WESTERN EUROPE
Accession no.599010
Item 318
Waste News
2, No.3, 3rd June 1996, p.17
RECYCLERS SEE GOOD NEWS FOR TYRES
Mikolajczyk S J
Recycling company representatives who comprise the
International Tire & Rubber Association’s one-year-old
Tyre & Rubber Recycling Advisory Council are said to
have provided an industry overview comprised of advice
and optimism at the association’s trade show in Louisville,
May 1996. Based on assessments by several council
members, crumb rubber markets are in an expansion mode,
with the biggest growth being in tyre-derived fuel, followed
by usage in products as diverse as playground equipment,
flooring, lumber and ground coverings. Details are given.
US,TIRE & RUBBER RECYCLING ADVISORY
COUNCIL; INTERNATIONAL TIRE & RUBBER
ASSOCIATION; ROUSE RUBBER INDUSTRIES
INC.
USA
Accession no.598981
Item 319
Revista de Plasticos Modernos
69, No.465, March 1995, p.233-8
Spanish
DESIGN OF A COMPOSITE MOUNTAIN
BICYCLE
Pages P; Arbiol J
Catalunya,Universitat Politecnica
An account is given of the development of a mountain
bicycle having a frame made of carbon fibre-reinforced
epoxy resin. 5 refs.
INGENIERIA DE COMPOSITES; FONTANALS
COMPOSITES
EUROPEAN COMMUNITY; EUROPEAN UNION; SPAIN;
WESTERN EUROPE
Accession no.598447
Item 320
Plast’ 21
No.43, May 1995, p.61-6
Spanish
APPLICATIONS OF ORGANIC MATRIX
COMPOSITES IN BOATS
Vilas J L
Compoplas
Applications of composites and sandwich structures in
boat and ship construction are reviewed, and reference is
also made to some other marine applications of these
materials. Types and properties of resins and
reinforcements and fabrication methods used in marine
craft construction are examined, and trends in the use of
prepregs are discussed.
EUROPEAN COMMUNITY; EUROPEAN UNION; SPAIN;
WESTERN EUROPE
Accession no.598434
Item 321
Kunststoffe Plast Europe
86, No.6, June 1996, p.33-4
FIBRE-REINFORCED PLASTICS FOR
OLYMPIC CANOE
Bohme D
Design, material selection and processing method are very
important to the success of the Canadian one-man canoe
(Cl, manufactured by FES, Berlin), which is to be part of
the German Canoe Association’s fleet at the 1996 Olympic
Games in Atlanta/USA. Fibre-reinforced composites
based on carbon and aramid fibres demonstrate their
specific performance range to particularly good effect
here. The design has two requirements to fulfil: reduction
of the resistance which the Cl offers to the water, and
improvement in the ratio of propulsion forces to steering
forces. Details are given.
EUROPEAN COMMUNITY; EUROPEAN UNION; GERMANY;
WESTERN EUROPE
Accession no.596180
Item 322
Kunststoffe Plast Europe
86, No.6, June 1996, p.32-3
SAILING BOATS MADE FROM ARAMID FIBRE
LAMINATES
Van den Bos A L
High-performance aramid fibres have recently been used
successfully as reinforcing materials for polyester boats.
The excellent impact strength of these fibres increases the
safety of sailing yachts and motor boats. The light weight
© Copyright 2001Rapra Technology Limited 81

References and Abstracts
coupled with high rigidity of these materials achieves a
reduction in motor boat fuel consumption. Since aramid
fibres (Twaron, manufactured by Akzo Nobel) are now
finding wide application, certain types of woven and nonwoven
fabric can be standardised, which benefits the cost
structure. Fibre properties, such as light weight, high
tenacity, rigidity and impact strength, make these
reinforcing materials suitable for boat construction.
EUROPEAN COMMUNITY; EUROPEAN UNION;
NETHERLANDS; WESTERN EUROPE
Accession no.596179
Item 323
Plastics News(USA)
8, No.12, 20th May 1996, p.4
NAUTICRAFT LAUNCHES ROTOMOULDED
BOAT PLAN
Neaville L S
Nauticraft Corp., of Michigan, is to install its first
rotational moulding machine to begin converting a
fibreglass pedal boat to rotomoulded polyethylene. The
article supplies details of the company’s background, its
current activities and products. The switch to rotomoulded
PE was brought about because the fibreglass model was
not commercially viable.
NAUTICRAFT CORP.
USA
Accession no.596115
Item 324
Industria della Gomma
39, No.4, April 1995, p.43-7
Italian
WHAT IF THE SEVEN LEAGUE BOOTS HAD
HAD RUBBER SOLES?
Applications of rubbers in footwear are examined, with
particular reference to PU elastomers. Developments by
a number of Italian companies in polymers, compounds
and processing machinery for footwear manufacture are
reviewed, and some statistics are presented for the Italian
footwear industry.
EUROPEAN COMMUNITY; EUROPEAN UNION; ITALY;
WESTERN EUROPE
Accession no.595281
Item 325
Revue Generale des Caoutchoucs et Plastiques
No.740, April 1995, p.71-2
French
ETHER-AMIDE BLOCK COPOLYMERS ON
THE STARTING BLOCKS
Tron L; Chassaing J
Elf Atochem SA; Adidas AG
Applications of Elf Atochem’s Pebax ether-amide block
copolymer thermoplastic elastomers in soles for sports
footwear are described. Properties which make these
materials particularly suitable for such applications are
examined.
EUROPEAN COMMUNITY; EUROPEAN UNION; FRANCE;
GERMANY; WESTERN EUROPE
Accession no.595263
Item 326
Utech ’92. Conference proceedings.
Hague, 31st March-2nd April 1992, p.150-5. 43C6
NEW POLYMERIC POLYESTERS AND THEIR
APPLICATION IN MICROCELLULAR
ELASTOMERS FOR SHOE SOLES
Monso J M; Soler J; Blanch J; Escobar P; Rodriguez F
L; Garcia J
Hoocker SA
(Crain Communications Ltd.)
Polyesters suited to the formulation of PU microcellular
elastomers are described. The particle size of the
dispersion exerts an important influence upon product
stability, as well as its value as a reinforcing agent for the
finished plastic. Parameters influencing the synthesis of
products are explained, specifically the use of specific
dispersants. The efficiency of three of them is compared
by determining particle size; this study is made by
Scanning Electron Microscopy with a JEOL JSM 840
apparatus, presenting a white polymeric polyester with
small particle size (0.2 microns) as an optimised product.
The modification of mechanical properties by using
polymeric polyesters is studied in microcellular
elastomers, and tests are made with a GUSBI machine
P40/D2 in an elastomer of 400 Kg/m3 and with increasing
quantities of polymeric up to 50%. The increase in
hardness and the variations of tensile strength, elongation,
tear strength and flexural properties relating to the
percentage of polymeric are compared. The economy
obtained by savings of isocyanate requirements in systems
using polymeric polyesters is quantified, selecting for this
purpose: low density mid-soles and standard sport shoes
of medium hardness.12 refs.
EUROPEAN COMMUNITY; EUROPEAN UNION; SPAIN;
WESTERN EUROPE
Accession no.594649
Item 327
Injection Molding
4, No.6, June 1996, p.44
SKI GOGGLE FIT WITH RP TECHNOLOGY
Maniscalco M
The use of stereolithography techniques to solve design
problems with a ski goggle, is described. Prototype
Express collaborated with Smith Sport Optics, to avert a
seeming disaster when the goggle’s critical fit between
the nose and cheek region left a gap. The use of rapid
prototyping, enabled a saving of 125,000 US dollars in
tool rework costs, and 8-10 weeks in the project cycle.
82 © Copyright 2001 Rapra Technology Limited

References and Abstracts
PROTOTYPE EXPRESS
USA
Accession no.594193
Item 328
Rubber and Plastics News
25, No.21, 6th May 1996, p.24-5
MONDO MAKES MARK AS OLYMPIC
SUPPLIER
Meyer B
Mondo America Inc. is the sole supplier to the 1996
Atlanta Olympic games of sports track. The company is
providing nine track surfaces for Atlanta including
training track. Mondo of Lavel Quebec, has invested a
lot of money and effort to get into the US, and sees the
Atlanta games as the perfect opportunity to advertise their
name. Details are given of their product range which
includes 9 different sports surfaces for different
applications. Its premium running track is a two layer
construction with EPDM on the top layer for spike and
weather resistance, and natural rubber on the bottom for
comfort and shock absorbency.
MONDO AMERICA INC.
CANADA
Accession no.592875
Item 329
Rubber and Plastics News
25, No.19, 8th April 1996, p.20
SKATE WHEEL MAKERS CRUISING
Truini J
The popularity in the US of in-line skating has provided
manufacturers of polyurethane wheels with a growing
outlet for their goods. The leading US company,
Rollerblade Inc., claims to have sold 12 million pairs of
skates in 1994, 6 million more than in the previous year.
As well as the rapid growth, the demands for improved
performance are being met in terms of durability and wet
traction performance. The key suppliers and
manufacturers are noted with their comments on the
popularity of the sport.
USA
Accession no.591116
Item 330
Shell Chemicals Europe Magazine
No.5, April 1996, p.7-9
TAKING TYRES OFF THE SCRAP HEAP
Johnston J
Shell Chemicals Europe
Rosehill Polymers’ involvement in the Eureka project
EU446 is described. The project was conceived to develop
a process whereby scrap rubber tyres and plastic bottles
could be recycled in combination with a PU binder to
produce marketable end products such as safety surfaces
for children’s playgrounds, running tracks and tennis
courts. The PU prepolymer took four years to develop
and is based on the reaction between a blend of polyols
such as those from Shell’s Caradol range, and MDI. The
PU binders produced by Rosehill are one-part and solvent
free, relying on atmospheric moisture for final curing.
Other applications involving the use of polyurethanebound
rubbers are also described.
ROSEHILL POLYMERS
EUROPEAN COMMUNITY; EUROPEAN UNION; UK;
WESTERN EUROPE
Accession no.591004
Item 331
Advanced Materials & Processes
149, No.5, May 1996, p.4
COMPOSITES LIGHTEN SUPERFAST
SAILBOAT
A flying sailing vessel called the Hydroptere is under
construction in France by Matra Defense of Velizy-
Villacou-blay Cedex, and Dassault Aviation of
Caucresson. The craft, which incorporates both
aeronautical and nautical technology, is being made ready
to attempt a series of record-breaking crossings of the
Mediterranean Sea and the Atlantic and Pacific Oceans
in 1997. The boat is an 18-meter-long hydrofoil trimaran
with foils mounted under the sponsons between the hulls.
To limit weight while optimising rigidity, high
performance composite materials, such as carbon- and
glass fibre-reinforced polymers have been chosen for the
boat’s foils, 27 meter high main mast, central hull, and
250 sq.m. of sail. Details are given.
MATRA DEFENSE; DASSAULT AVIATION;
FRENCH TECHNOLOGY PRESS OFFICE INC.
EUROPEAN COMMUNITY; EUROPEAN UNION; FRANCE;
WESTERN EUROPE
Accession no.590400
Item 332
Tyres & Accessories
No.5, 1996, p.60-6
TURF AND ATC TYRES: A GROWING MARKET
Claydon R.H.,Ltd.
An overview is presented of tyres and tyre manufacturers
in the leisure/turf market. These include tyres used on
grass maintenance equipment both for domestic and
parkland, golf carts, all terrain vehicles, go-karts, and quad
bikes. Tyre designs, brands and dimensions are included,
and company profiles are given of the suppliers.
EUROPEAN COMMUNITY; EUROPEAN UNION; UK;
WESTERN EUROPE
Accession no.589764
Item 333
Modern Plastics International
26, No.5, May 1996, p.21-3
© Copyright 2001Rapra Technology Limited 83

References and Abstracts
DIVERSIFICATION RESHAPES ADVANCED-
MATERIALS SECTOR
Grande J A
Most industry observers agree that further consolidation
in the advanced composites industry is inevitable. Hexcel
recently purchased Ciba-Geigy’s composites business
and, through diversification, seeks to better balance its
business which is 65% based on aerospace. The transition
from military to civilian applications is slow, but progress
is being measured. A key growth market is sports and
recreation, for example, snowboards, ski poles, golf shafts,
tennis racquets and bikes. Lockheed Martin heads a
project for an integrated aerospace airframe which makes
extensive use of resin transfer moulding. Fiber
Innovations has demonstrated a braiding technology for
constructing curved airbeams which form a rapidly
erected shelter for the US Army.
USA
Accession no.589700
Item 334
Plastics World
54, No.5, May 1996, p.29
FINDING ITS SEA LEGS
Schut J H
Kayaks made of 100% post-consumer HDPE are being
made for Walden Paddlers by two processes,
thermoforming and rotomoulding. The kayaks are
assembled by hot air welding so that they can be returned
and recycled. The melt flow rate of the recycled HDPE
bottle resin is kept as constant as possible by batchblending
the recycle in very large amounts and closely
controlling how it is blended with process regrind. To
thermoform the kayak, Universal designed and built a
double-ended thermoforming machine with an extra long
forming area and catalytic heaters. The rotomoulded
kayaks are produced by Hardigg Industries using a
granulate form of PCR from injection moulded parts like
pales and crates.
USA
Accession no.589655
Item 335
ICCM/9. Volume 6: Composites Properties and
Applications. Conference Proceedings.
Madrid, 12th-16th July 1993, p.208-15. 627
COMPOSITE MONOCOQUE FRAME FOR
BICYCLES, THE DESIGN AND THE
FABRICATION
Jun E J; Kim B S; Joe C R
Korea,Institute of Machinery & Metals
Edited by: Miravete A
(Zaragoza,University)
A computer aided design scheme and a new fabrication
technique for one-piece composite monocoque bicycle
frames are described. For the fabrication process, a new
method of building pressure in the mould was used.
Composite tooling was used to produce the prototype
composite frame. The mould developed was made using
high cure temperature epoxy resin and carbon fabric. The
frames developed in this study passed the vibration,
impact, drop-weight and energy absorption tests and road
tests and distortion tests were carried out on the frames
as performance verification tests.
COREX SPORTS CORP.; SAMCHULI BICYCLE
INDUSTRIAL CO.LTD.
KOREA
Accession no.588173
Item 336
Plastics Technology
42, No.4, April 1996, p.51
MOULD EPP BEAD FOAM WITH AN INTEGRAL
SKIN
Naitove M
The article describes the process of producing expanded
polypropylene foam parts with a solid integral skin on one
side, citing a bicycle helmet moulded from BASF’s Neopolen
EPP bead, as an illustration. The self-skinning EPP process
requires some modification of standard bead-moulding
equipment, needing an extra steam chamber. Automotive
interior trim is a potential application for the process.
BASF CORP.
USA
Accession no.587430
Item 337
Modern Plastics International
26, No.4, April 1996, p.26-7
CONTRACT MANUFACTURING GAINS
STRENGTH IN COMPUTER INDUSTRY
Grande J A
In the computer industry, contract manufacturing has
reached a new level in meeting OEM’s one-stop shopping
needs. Mack Molding’s new facility in southern Vermont
handles high-volume projects, for example, the HP
XLS800 data storage system for Hewlett Packard.
Polycarbonate foam was used for the chassis and dividers,
and injection moulded PC/ABS was used for the skins
and modules. Similarly, in a consumer application, Mack
handles moulding, assembly and distribution of Reebok’s
step and slide aerobic devices. The Arlington plant
features a high level of automation in processing and
assembly.
MACK MOLDING CO.
USA
Accession no.587309
Item 338
Du Pont Magazine European Edition
No.1, 1996, p.28-30
WINNING WITH ‘TYVEK’
84 © Copyright 2001 Rapra Technology Limited

References and Abstracts
Tyvek flashspun HDPE is being used in rolling advertising
displays at sports stadia. Advantages of its use in this
application are described, and include is thinness,
lightness, and toughness. It is puncture and abrasion
resistant, and offers chemical resistance, water repellency,
rot resistance and biological inertness.
DUPONT; SPACE & TIME AG
SWITZERLAND; WESTERN EUROPE
Accession no.587064
Item 339
European Plastics News
23, No.4, April 1996, p.21
ROTOMOULDING MAKES BOATS
American Rotational Molding recently won a prize from
the US Association of Rotational Molders for its work on
a “family” catamaran. The company can make a complete
boat every two hours, compared to one boat a day for
GRP boats. The boats are rotomoulded at 600C using a
proprietary three-layer process. The first layer, which
forms the tough outer surface of the catamaran, is made
of crosslinked PE. The cycle is then interrupted as PE,
laced with a heat-activated foaming agent, is fed in. The
process is then restarted and the foam layer fuses to the
crosslinked skin layer. The process is stopped again and
the third layer, standard LLDPE, is introduced.
AMERICAN ROTATIONAL MOLDING GROUP
INC.
USA
Accession no.585802
Item 340
Revue Generale des Caoutchoucs et Plastiques
No.738, Feb.1995, p.32-5
French
INFLATABLE BOATS: AN UNSINKABLE
MARKET
Lavabre S
The use of rubbers and plastics in inflatable boats is
examined, and the activities of some companies involved
in boat construction and the manufacture of coated fabrics
are reviewed. Statistics are presented for the boat building
industry in France, which is the world leader in the
inflatables market.
ZODIAC SA; BOMBARD; SEVYLOR
INTERNATIONAL; JUMBO BOATS VERTRIEB
GMBH; HURRICANE; PENNEL & FLIPO SA; ELF
ATOCHEM SA; ZEPPELIN; GOMMONAUTICA;
BERTRAND YACHT STYLE
EUROPEAN COMMUNITY; EUROPEAN UNION; FRANCE;
GERMANY; ITALY; WESTERN EUROPE; WORLD
Accession no.583128
Item 341
Kunststoffe Plast Europe
86, No.1, Jan.1996, p.30-2
English; German
ABS/POLYAMIDE-6 BLENDS. PERFORMANCE
PROFILE OF MATERIALS FOR APPLICATIONS
IN THE SPORTS AND LEISURE SECTORS
Dunning L
DSM
A combination of high toughness, dimensional stability
and resistance to extreme operating conditions is shown
to make ABS/polyamide-6 blends suitable materials for
sports and leisure applications. The further improvement
of low-temp. impact strength, coupled with adequate
rigidity and tracking resistance, opening up applications
in winter sports and motorcycle racing, is discussed.
EUROPEAN COMMUNITY; EUROPEAN UNION;
NETHERLANDS; WESTERN EUROPE
Accession no.582481
Item 342
Kunststoffe Plast Europe
86, No.1, Jan.1996, p.29-30
English; German
LONG FIBRE-REINFORCED
THERMOPLASTICS. TAILORED TO FILL THE
NICHE BETWEEN GLASS MAT
THERMOPLASTICS(GMT) AND HIGH-
PERFORMANCE FIBRE-REINFORCED
COMPOSITES
Effing M
Europaeische Entwicklungszentrum
Continuous strand-reinforced thermoplastics are shown
to be inexpensive, high-strength materials suitable for
large-scale production of shell-shaped and flat structures.
Typical applications, including automobile parts, transport
containers, sports equipment and personal security
elements, are discussed. 1 ref.
EUROPEAN COMMUNITY; EUROPEAN UNION; GERMANY;
WESTERN EUROPE
Accession no.582480
Item 343
Plastics and Rubber Weekly
No.1626, 8th March 1996, p.10
HALLAM GEARS UP FOR GROWTH
Lunney A
Hallam Plastics’ 25 years of expertise in structural foam
and product finishing supports its claim as a specialist
injection moulder. The company aims to double its 3.2m
pounds sterling turnover within the next five years. Hallam
is hoping to develop innovations based on a technology
developed in the late 1960s. It usually consists of an
engineering thermoplastic that has a strong cellular core
surrounded by a solid outer skin, formed by using a blowing
agent in a low pressure process for high stiffness, low stress
mouldings. The Terraplas tile, used for stadium turf
protection, is one example of the company’s product-line
success using these tested methods. Hallam’s customer base
stands at about 70, with the IT market to the fore.
HALLAM PLASTICS
© Copyright 2001Rapra Technology Limited 85

References and Abstracts
EUROPEAN COMMUNITY; EUROPEAN UNION; UK;
WESTERN EUROPE
Accession no.582308
Item 344
Adhesives Age
39, No.2, Feb.1996, p.61-2
CIBA ADHESIVES AID IN GOLF CLUB
ASSEMBLY
The design is described of Taylor Made golf drivers and
metal woods, and manufacturing methods using Ciba-
Geigy’s Araldite AW 136/HY 994 epoxy resin adhesives
to bond the club heads to the shafts of golf clubs. The
adhesive is dispensed via an automated SeeFlo 387 bench
top meter/mix/dispensing system which allows each 0.7
gram shot of adhesive to be dispensed into the head. This
capability offers improved control of the mixed material
flow rate to prevent epoxy from being dispensed too
quickly into the club head, thereby trapping air in the
cavity. Following adhesive injection, glass microbeads
are poured into the head to act as ball bearings around the
sides of the shaft, which is then pushed into the head under
pressure to ensure a firm bond and eliminate air bubbles.
CIBA-GEIGY CORP.; TAYLOR MADE GOLF CO.
USA
Accession no.580546
Item 345
Plastics News(USA)
7, No.25, 21st Aug.1995, p.18
CYCLIST’S EYE SCREEN SOLVES WHAT BUGS
HIM
Renstrom R
The article supplies details of a new, lightweight helmetmounted
eyescreen for cyclists. The eyescreen protects
the wearer from insects and dirt and incorporates an antifogging
coating. The material used for the eyeshield is
cellulose propionate, an engineering thermoplastic.
EASTMAN CHEMICAL CO.; AIROSERIES INC.
USA
Accession no.578016
Item 346
Machine Design
67, No.16, 14th Sept.1995, p.36-40
BOOM, BOOM, BOOM! AND BERTHA’S EVEN
BIGGER!
Braham J
Engineers are developing tennis rackets and golf clubs
made of space-age materials, with larger heads that are
lightweight and yet deliver more power and greater
accuracy. The article describes the latest developments in
high-tech sporting goods, including the biggest
technological advance in rackets this year - the kinetic
racket from ProKennex, which reduces shock and vibration.
TAYLOR MADE GOLF CLUB CO.; QUADRAX
CORP.; CALLAWAY GOLF CO.; CLEAR
DIFFERENCE GOLF CO.; WILSON SPORTING
GOODS CO.; GAMMA SPORTS; PROKENNEX;
DUNLOP SLAZENGER CORP.
USA
Accession no.577998
Item 347
Du Pont Magazine European Edition
No.5, 1995, p.28-30
SUPPLIER TO THE ELITE
Rossignol, a manufacturer of sports goods uses DuPont
materials in its range of skis and ski boots, and has recently
launched a new line of undergarments which can be worn
for sports and leisure activities as well as under regular
ski outfits. Details are given of how Kevlar has helped
achieve advances in ski design and added value to the
range of ski boots. The Sportsline range of clothing uses
high performance products such as Lycra elastane fibre,
Coolmax fabric and Tactel nylon.
ROSSIGNOL SKI CO.
EUROPEAN COMMUNITY; EUROPEAN UNION; FRANCE;
WESTERN EUROPE
Accession no.576807
Item 348
PPG Information
Oct.1995, p.4-5
ISOSPORT. THE GROWING POPULARITY OF
SNOWBOARDS
The article describes the growth in the snowboard market.
In recent years, snowboards have taken about 25% of the
total world ski market. The article supplies details of the
products of Isosport Verbundbauteile GmbH, a company
which has taken advantage of the growth in the market.
The article also describes the construction of skis.
ISOSPORT VERBUNDBAUTEILE GMBH
AUSTRIA; WESTERN EUROPE
Accession no.574453
Item 349
Urethane Plastics and Products
25, No.11, Nov.1995, p.5-7
THERE’S A LITTLE BIT OF PITTSBURGH IN
EVERY BRUNSWICK BOWLING BALL
It is reported that for the past decade, Bayer’s PU materials
have helped bowlers, from the tour’s top professionals to
the high-handicap league bowler, bowl their best game.
During the decade that Bayer has supplied PUs to
Brunswick, the two have revolutionised the bowling ball
industry by introducing what are known as reactive resin
bowling balls. These balls, which include the Rhino Pro,
the Quantum and the new Zone, use special materials from
Bayer to offer the bowler greater control and more options
86 © Copyright 2001 Rapra Technology Limited

References and Abstracts
to accommodate a range of lane conditions. Details are
given.
BAYER CORP.; BRUNSWICK CORP.
USA
Accession no.572113
Item 350
Macplas International
Aug.1995, p.142-3
SNOWTIME
An all-terrain ski produced from a one-piece, stainless
steel cap design is described briefly. The metal cap/
fibreglass/wood/rubber construction yields an ideal
balance of strength and flexibility. The ski performs
well on hard-packed snow and ice as well as on
powdered snow. The various laminate layers are coated
with an Araldite epoxy resin adhesive, assembled,
placed in a press and cured under heat and pressure.
The requirements of the epoxy resin adhesive are
particularly examined.
VOLANT SKI CORP.
EUROPEAN COMMUNITY; EUROPEAN UNION; ITALY;
WESTERN EUROPE
Accession no.571215
Item 351
Plastics Technology
41, No.11, Nov.1995, p.92
WHOLE NEW WAY TO MAKE SAILBOATS
The conventional method of making sailboats using
thermoset fibre-reinforced plastic laminates may be
successfully replaced by a new approach developed by
Advance USA in co-operation with JY Sailboats. The
‘ACP’ process is Advance USA’s patented method for
making a three-layer structure that has a thermoformed
thermoplastic skin, a foam core and a glass fibrereinforcing
layer. Details are given.
ADVANCE USA; JY SAILBOATS
USA
Accession no.571078
Item 352
Rubber and Plastics News
25, No.5, 9th Oct.1995, p.71
ATR ACQUIRES PATENTS FOR REBOUND SOIL
LINE
Pritchard E
American Tire Recyclers is reported to have launched
marketing for Rebound, a patented process that mixes
crumb rubber and compost to create new road surfaces
for sports fields and parks. The company has acquired
patents for Rebound products from International Soil
Systems, the company that developed the process.
American Tire Recyclers has been selling Rebound
products for almost two years; details are given.
AMERICAN TIRE RECYCLERS INC.
USA
Accession no.569302
Item 353
Nippon Gomu Kyokaishi
67, No.6, 1994, p.408-10
Japanese
SOFT TENNIS BALLS
Asano K
Showa Gomu KK
Historical changes in the soft tennis ball and its
manufacture are described. 3 refs. Articles from this
journal can be requested for translation by subscribers to
the Rapra produced International Polymer Science and
Technology.
JAPAN
Accession no.565956
Item 354
Plastics on the Road ’94. Conference Proceedings.
Solihull, 28th-29th Nov.1994, p.49-57. 63Tr.Ro
COMPOSITE CHASSIS DEVELOPMENT IN
MOTORSPORT
Greaves J
Janus Technology
(Institute of Materials; Institution of Mechanical
Engineers; Industrial Technology Magazine)
One of the biggest advances over the last decade in
Formula One racing cars has been the use of composites.
More than 80% of a modern Formula One car is made
in a composite of one form or another. A history of
composite development in the field of motorsport is
presented. 5 refs.
EUROPEAN COMMUNITY; EUROPEAN UNION; UK;
WESTERN EUROPE
Accession no.564915
Item 355
Journal of Thermal Insulation
Vol.19, Oct.1995, p.173-88
INSULATION, AIR BARRIERS,
POLYURETHANE FOAM, AND
LEAKPROOFING
Sartor J
CONTEC
The design and construction is described of an indoor
baseball field which is enclosed in an air-supported
structure. Problems associated with leakproofing, thermal
insulation, and air barriers are addressed within this case
study of the use of polyurethane foam in this type of
concrete block structure.
CANADA
Accession no.564484
© Copyright 2001Rapra Technology Limited 87

References and Abstracts
Item 356
Plastics News(USA)
7, No.26, 28th Aug.1995, p.4
GRAPHITE GOLF CLUBS DRIVE ALDILA INTO
PREPREGS
Renstrom R
Details are given of the in-house production of prepreg
by graphite golf shaft manufacturer, Aldila Inc., in an
effort to control its raw material supply. The company
plans to make its own intermediate- and high-modulus
products by late 1996 following the production initially
of standard modulus carbon fibre. The investment in
equipment and development of the business is described.
ALDILA INC.
USA
Accession no.564088
Item 357
Plastics News(USA)
7, No.26, 28th Aug.1995, p.1/4
GRAPHITE GOLF SHAFTS SCORE WITH
PLAYERS, CLUB MAKERS
Renstrom R
Trends in golf club shaft design are reviewed with respect
to the growing use of graphite fibre reinforced materials.
The US market’s annual growth of more than 20% reflects
numerous material and process improvements. The golf
clubs manufactured by key companies in the industry are
described, and the developments in production and types
of prepreg used are reviewed.
BMR ASSOCIATES
USA
Accession no.564081
Item 358
Engineering Design
No.1, 1995, p.4-5
‘DELRON’ GUARDS FOOTBALLERS’ FEET
Gaunt M
DuPont (UK) Ltd.
Infra red thermography was used to study trauma to
footballers’ feet when wearing metal studded boots and
also an alternative Delrin studded boot. It was shown that
the use of a specially developed grade of Delrin, caused
significantly less injury to the sole of the foot. The studs
are called Lite and are manufactured by Tisport Ltd.
TRISPORT LTD.
EUROPEAN COMMUNITY; EUROPEAN UNION; UK;
WESTERN EUROPE
Accession no.561087
Item 359
Modern Plastics International
25, No.9, Sept.1995, p.35/7
FRANCHISES AVAILABLE FOR
THERMOFORM TECHNOLOGY
Myers J
DuPont is planning a worldwide network of franchised
outlets, partnered with selected processors specialising
in high-volume thermoforming of thermoplastic
composite sheets, to establish its Tepex preform
technology. Tepex is a continuous fibre-reinforced
preform based on any of several DuPont highperformance
resins. A variety of fibres can also be used
and a range of weaves can be employed. Central to the
production technologies is Sumitomo Heavy Industries’
high-speed forming system that shapes thermoplastic
composite sheets in less than a minute. Also available
with the Tepex franchised technology is a new
sublimation method for surface decoration. Franchise
operators are expected to be plastics processors with
experience supplying to one or more of the targeted
industries, which include transportation, bicycles, sports
equipment, body protection, industrial equipment and
footwear.
DU PONT CO.
WORLD
Accession no.560801
Item 360
High Performance Textiles
Aug.1995, p.10
SAILCLOTH WEIGHT-SAVING ACHIEVED
USING PEN FILM
It is reported that, using a polyethylene naphthalate film
supplied by Teijin, US company Bainbridge/Aquabatten
has created a sailcloth specifically developed for the
Americas Cup races, and achieved a weight saving of
around 10-12% compared with the conventional polyester
film used. Details are given.
TEIJIN LTD.; AMOCO CORP.; BAINBRIDGE/
AQUABATTEN INC.
JAPAN; USA
Accession no.560611
Item 361
Injection Molding
3, No.8, Aug.1995, p.74-5
HOW MANY GATES?
A flow analysis case study is described: a solid-top
exercise floor tile moulded of PP. Initial moulded parts
are badly warped, have poor surface appearance and
require an excessively long moulding cycle. Results of
mould filling indicate that the primary source of the
problem is the gating layout.
PLASTICS DESIGN LIBRARY; RAPRA
TECHNOLOGY LTD.; ROUTSIS A.,ASSOCIATES;
MATEFLEX
USA
Accession no.560600
88 © Copyright 2001 Rapra Technology Limited

References and Abstracts
Item 362
Shell Chemicals Europe Magazine
No.3, July 1995, p.11-3
SAILING INTO NEW DESIGN WATERS
Bentley P
Materials from the petrochemical industry are reported
to have set a completely new course for the world of boat
design. In particular, advanced composite structures are
producing new classes of boats which are much lighter,
tougher and faster through the water. Some of the latest
developments are presented.
SHELL CHEMICALS EUROPE LTD.; ROYAL
NATIONAL LIFEBOAT INSTITUTION
EUROPEAN COMMUNITY; EUROPEAN UNION; UK;
WESTERN EUROPE
Accession no.560176
Item 363
Machine Design
67, No.13, 27th July 1995, p.54/8
FIBREGLASS: JUST FOR THE HULL OF IT
Kelly T C
Owens-Corning Fiberglas Corp.
The increasing use of GRP by the marine industry is
reported to be causing ripples worldwide, as composite
manufacturers such as Owens-Corning Fiberglas attempt
to keep pace with global demand. The increasing demand
for pleasure boats and yachts stems partially from the
recent repeal of the USA’s luxury tax. The use of these
composite materials in marine hulls is described in detail.
USA
Accession no.560148
Item 364
Plastics News(USA)
7, No.16, 19th June 1995, p.3/51
EMC MAKES A SPLASH WITH KAYAKS
Neaville L S
Engelhart Molding began in-house rotational moulding
of HDPE for the production of kayaks following
disappointment with the quality achieved by outside
moulders. The company uses a new Ferry Rotospeed 500
independent arm biaxial machine which eliminates
warpage problems. The company now plans to compete
for business as custom rotational moulders
ENGELHART MOULDING CORP.
USA
Accession no.559803
Item 365
High Performance Textiles
July, 1995, p.5
‘STOMATEX’ FABRICS GIVE SUPERIOR
THERMAL PERFORMANCE
Details are given of suitable applications for Stomatex
thermally insulating laminate fabric. The material is based
on a polyethylene or polychloroprene foamed cellular layer
combined with a stretchable warp knit, similar in appearance
to the material used to make wet suits. The construction of
the laminate is described, tog values and water vapour
transmission rate, and uses in the manufacture of survival or
sportswear, and in medical applications are described.
MICROTHERMAL SYSTEMS LTD.
EUROPEAN COMMUNITY; EUROPEAN UNION; UK;
WESTERN EUROPE
Accession no.558373
Item 366
Plastics and Rubber Weekly
No.1596, 28th July 1995, p.13
FIGHTING OFF LOW COST RIVALS FROM
ABROAD
UK-based Carlton Sport, part of the Dunlop Slazenger
group, is now the only remaining shuttlecock
manufacturer in Europe. It holds the major share of the
UK market and exports around 40% of its production.
The company has embarked on a 3m pounds sterling
investment programme which will make the shuttlecock
injection moulding operation the most advanced of its
kind in the world. Conventional plastics shuttlecock skirt
production is a two stage process, involving moulding a
conical polyamide skirt blank and then heat forming the
flutes in a secondary post-moulding operation. Production
of finished skirts direct from the mould was essential to
further cut manufacturing costs. The company worked
with mouldmaker Kebo, a Swiss company which offered
complete project management. Initial market feedback
suggests the new shuttlecocks get the closest yet to the
performance of hand built feather designs.
CARLTON SPORT
EUROPEAN COMMUNITY; EUROPEAN UNION; UK;
WESTERN EUROPE
Accession no.557867
Item 367
Advanced Materials Newsletter
17, No.11, 12th June 1995, p.6
THERMOPLASTIC TEXTILE PREFORMS
PROVE THEIR WORTH IN SPORTING GOODS
Advances in towpreg technology, has enabled
thermoplastic textile preforms to prove performance
advantages in sporting goods applications. Based
primarily on nylon or PP, as well as offering performance
advantages, they also can deliver economic advantages.
Products are fabricated by filament winding, roll
wrapping, compression moulding, braiding, pultrusion,
hand layup and injection moulding.
CUSTOM COMPOSITE MATERIALS INC.
USA
Accession no.553272
© Copyright 2001Rapra Technology Limited 89

References and Abstracts
Item 368
Rubber and Plastics News
24, No.20, 24th April 1995, p.27
ATR CHANGES FOCUS FROM TDF TO
RECYCLING
Kennedy G J
A change of name and a change of direction for the former
Granulated Rubber Industries has seen the company
involved in the recycling of scrap tyres for use in soil
additives and ground cover products. The company was
involved in the production of tyre-derived fuel, but
decided to produce recycled products using crumb rubber.
The success of such products as Rebound, SportsTurf,
PermaPark and EquestriFoot as produced by the new
American Tire Recyclers company is discussed.
GRANULATED RUBBER INDUSTRIES;
AMERICAN TIRE RECYCLERS
USA
Accession no.551167
Item 369
Sports Industry
No.115, March 1995, p.12
COVERING THE WHOLE OF A SPORTS
CENTRE
It is reported that sports centres can now take advantage
of a complete package of flooring and sports surfaces now
available from Altro Floors of the UK. Details of the
products included in the sports centre package are given.
ALTRO FLOORS
EUROPEAN COMMUNITY; EUROPEAN UNION; UK;
WESTERN EUROPE
Accession no.550581
Item 370
Adhesives Age
38, No.3, March 1995, p.58-9
EPOXIES, EQUIPMENT DRIVE GOLF HEAD
IMPROVEMENTS
The article supplies details of the assembly and induction
curing process used by Wilson Sporting Goods Co. in the
manufacture of their golf clubs. The company uses Ciba
Araldite AV-138/HV-998 and AW-106/HV-953 epoxy
adhesive systems to bond golf heads and shafts. The Ciba
epoxy adhesives work well with the induction curing
process and maintain their bond strength without
becoming brittle.
WILSON SPORTING GOODS CO.
USA
Accession no.550085
Item 371
Adhesives Age
38, No.3, March 1995, p.56
EPOXY ADHESIVE TOUGH ENOUGH FOR
CHALLENGING BICYCLE APPLICATION
The article supplies details of Hysol EA9430 - a high
performance epoxy adhesive from Hysol Engineering
Adhesives. Chosen for its durability, high peel and shear
strength, the adhesive is being used by the Trek Bicycle
Corp. to assemble all of the company’s bonded mountain
and road bikes.
TREK BICYCLE CORP.; HYSOL ENGINEERING
ADHESIVES
USA
Accession no.550083
Item 372
Urethane Plastics and Products
25, No.3, March 1995, p.1-2
ARCO CHEMICAL INTRODUCES
VISCOELASTIC SLABSTOCK FOAM
This article supplies details of Softcel, a viscoelastic
slabstock foam technology developed by Arco Chemical
Co., which has a wide range of densities, firmness and
recovery rates. The foam was developed to provide
fabricators with a product that offers superior shape
conformance and energy and sound damping, but it is
expected to find widespread use in a variety of
applications, including medical, automotive and sporting
goods.
ARCO CHEMICAL CO.
USA
Accession no.550036
Item 373
Tire Business
12, No.25, 3rd April 1995, p.33
GRANULATOR’S ‘BIG ADVENTURE’
Kennedy G J
Following a change of name and philosophy, American
Tire Recyclers, formerly Granulated Rubber Industries,
decided to move out of the tyre derived fuel business which
was proving unprofitable, and instead concentrate on using
crumb rubber for soil amendment purposes, rubberised
asphalt, and sports and recreational surfaces. Details are
given of the success of the company, its sales and customers.
GRANULATED RUBBER INDUSTRIES;
AMERICAN TIRE RECYCLERS
USA
Accession no.549799
Item 374
Shell Chemicals Europe Magazine
No.2, March 1995, p.8-9
A STRONG CASE FOR POLYURETHANES
Johnston J
Shell Chemicals UK Ltd.
The versatility of polyurethanes is examined in this
overview of its characteristic properties and varied
90 © Copyright 2001 Rapra Technology Limited

References and Abstracts
applications. The manufacture of polyurethanes is
described, and innovative applications such as breathable
fabrics, recycled products and sports and recreational
surfaces are discussed.
EUROPEAN COMMUNITY; EUROPEAN UNION; UK;
WESTERN EUROPE
Accession no.549783
Item 375
Revue Generale des Caoutchoucs et Plastiques
No.732, May 1994, p.41-2
French
HOECHST IN THE WIND
Lavabre S
Applications of Hoechst’s polypropylenes in the
construction of sailboards and of other plastics
manufactured by Hoechst in a range of sports goods are
examined. Statistics are presented for the French and
world markets for sailboards.
HOECHST AG
EUROPEAN COMMUNITY; EUROPEAN UNION; FRANCE;
GERMANY; WESTERN EUROPE; WORLD
Accession no.549498
Item 376
Revue Generale des Caoutchoucs et Plastiques
No.732, May 1994, p.38-40
French
BOATING: JEANNEAU WITH ALL SAILS
SPREAD
Lavabre S
An account is given of materials and processes used by
Jeanneau of France in boat construction, with particular
reference to racing boats made of carbon, glass and aramid
fibre-reinforced epoxy resin composites.
JEANNEAU SA; JEANNEAU TECHNIQUES
AVANCEES
EUROPEAN COMMUNITY; EUROPEAN UNION; FRANCE;
WESTERN EUROPE
Accession no.549497
Item 377
Revue Generale des Caoutchoucs et Plastiques
No.732, May 1994, p.34-8
French
SKIS: THE FRENCH IN A GOOD POSITION
Lafuma F
An examination is made of the products of French ski
manufacturers Dynastar, Rossignol and Salomon, and of
the processes and plastics materials used. Some company
information is presented, including turnover and
investment figures.
DYNASTAR; ROSSIGNOL; SALOMON SA
EUROPEAN COMMUNITY; EUROPEAN UNION; FRANCE;
WESTERN EUROPE
Accession no.549496
Item 378
Revue Generale des Caoutchoucs et Plastiques
No.732, May 1994, p.32-4
French
CRITT SPORTS ET LOISIRS: STAGES OF
INNOVATION
Forest J P
The activities of CRITT Sports et Loisirs of France in
product development, standardisation and certification in
the sports equipment field and in the development of test
methods for such products are described. Details are given
of some plastics sports items developed by a number of
companies with the aid of this organisation.
CRITT SPORTS ET LOISIRS; CRITT
EUROPEAN COMMUNITY; EUROPEAN UNION; FRANCE;
WESTERN EUROPE
Accession no.549495
Item 379
Revue Generale des Caoutchoucs et Plastiques
No.732, May 1994, p.30-1
French
POLYMERS CONQUER SPORT
Lavabre S
Trends in the use of plastics in sports equipment are
examined, and statistics are presented for the French and
West European sports goods markets. Topics discussed
at a conference on polymers and sport held at Riom,
France, on 2nd and 3rd June 1994 are reviewed.
EUROPEAN COMMUNITY; EUROPEAN UNION; FRANCE;
WESTERN EUROPE; WESTERN EUROPE-GENERAL
Accession no.549494
Item 380
Plastics News(USA)
7, No.1, 6th March 1995, p.1/24
BIKE HELMET MANUFACTURERS PLAN TO
MERGE
Lauzon M
Details are given of the merger between cycle helmet
manufacturers Bell Sports Corp. and American Recreation
Co., Holdings Inc. The strong presence of the latter in
Canada’s bicycle helmet market and in US mass
merchandising of bicycle accessories is reported to have
attracted Bell Sports’ interest. At present, the two firms
are studying potential plant consolidation, but have
reached no decision. Further details are given.
BELL SPORTS CORP.; AMERICAN RECREATION
CO.,HOLDINGS INC.
CANADA; USA
Accession no.548331
Item 381
Scrap Tire News
9, No.4, April 1995, p.1/3
© Copyright 2001Rapra Technology Limited 91

References and Abstracts
BABBITT INDUSTRIES FINDING NEW
MARKET FOR RECYCLED RUBBER
PRODUCTS
The successful growth of Babbitt Industries is described,
as the company continues to develop markets for its
recycled rubber goods, based on scrap tyres. Details are
given of the plant at St. Louis, and the marketing and
distribution activities carried out by the company, and its
range of products. These latter include anti-fatigue mats,
exercise mats, golf mats, traffic cones, and SoftWalk tiles.
BABBITT INDUSTRIES INC.
USA
Accession no.547666
Item 382
Scrap Tire News
9, No.2, Feb.1995, p.14
SCRAP TYRE-BASED SYSTEM SAVES WATER,
IMPROVES TURF
This reports on the “Rain Trap System” from Tire Farms of
the USA, a passive sub-irrigation system designed for golf
courses, which uses significant volumes of scrap tyres to save
millions of gallons of rain water a year. Details are given.
TIRE FARMS; CALIFORNIA,STATE UNIVERSITY
USA
Accession no.547476
Item 383
Scrap Tire News
9, No.3, March 1995, p.7
SPORTS COMPLEX TO USE REBOUND
A project to build a sports facility including a football
pitch in Jacksonville, is described. It will entail the use of
Rebound, which consists of granulated scrap tyres mixed
with compost, which will form the surface of the football
field. The mixture reduces compaction and improves
drainage. The Rebound amended soil will be topped with
NutriTurf, which is grown locally on recycled brewery
waste from Anheuser-Busch. Details are included of
funding for the project.
AMERICAN TIRE RECYCLERS INC.
USA
Accession no.546125
Item 384
Scrap Tire News
9, No.3, March 1995, p.7
POLYURETHANES HELP PUT RECYCLED
TYRES “UNDERFOOT”
The use of recycled scrap tyres in sports surfaces is
described. ICI Polyurethanes uses a combination of crumb
rubber and polyurethane adhesives to produce high
performance, durable running tracks and play areas. The
product provides resilience, impact absorption, and its
water permeable surface allows for quick drying and also
provides traction even when wet. Brief details are given
of application methods.
ICI POLYURETHANES INC.
USA
Accession no.546124
Item 385
International Polymer Science and Technology
21, No.11, 1994, p.T68/72
CHANGES IN RUBBER FOOTWEAR
Komuta S; Yasumoto Y
Developments in materials for manufacture of rubber
footwear are discussed, with reference to sole materials
and to liner materials. Manufacturing processes and
products are then considered, with emphasis on SBR-rich
formulations, vulcanisation-on-sole process, injection
moulding process, slush moulding process, non-marking
soles, and sports shoes. Future prospects for rubber
footwear are assessed. 3 refs. (Full translation of Nippon
Gomu Kyokaishi, No.2, 1994, p.118)
JAPAN
Accession no.545710
Item 386
Eureka
15, No.3, March 1995, p.47/50
MOUNTAIN BIKES SET THE ULTIMATE TEST
Barret J
A report is presented on the latest design developments in
seal technology, including both dynamic and static seals. The
seals described all offer significant design benefits. Included
are details of moulded silicone seals which replace O-rings
for leakproof applications; seals used on mountain bikes which
are subjected to harsh environments; Durametallic’s range of
PSS mechanical seals; spring-energised PTFE mechanical
seals; and bearing and piston seals.
EUROPEAN COMMUNITY; EUROPEAN UNION; UK;
WESTERN EUROPE
Accession no.545329
Item 387
Nippon Gomu Kyokaishi
67, No.5, 1994, p.348-51
Japanese
CHANGES IN THE HARD TENNIS BALL
Gouma M
Showa Gomu KK
The history and developments in the structure and
manufacture of rubber tennis balls are described. 2 refs.
Articles from this journal can be requested for translation
by subscribers to the Rapra produced International
Polymer Science and Technology.
JAPAN
Accession no.542430
92 © Copyright 2001 Rapra Technology Limited

References and Abstracts
Item 388
Nippon Gomu Kyokaishi
67, No.4, 1994, p.269-74
Japanese
SOFT BALL BASEBALL
Kenbishi H
Naigai Gomu KK
A brief history of the game of baseball with its origins in
the USA and UK is followed by a description of the
different types of ball used in the game. A description is
given of the structure and manufacture of the soft ball. 7
refs. Articles from this journal can be requested for
translation by subscribers to the Rapra produced
International Polymer Science and Technology.
JAPAN
Accession no.542410
Item 389
Polymer News
20, No.1, Jan.1995, p.27
SPORTING GOODS
Retail sales of sporting goods in the US were valued at
approximately 24 billion US dollars in 1993. Clothing
accounted for 53% (12.8 billion US dollars), while
footwear and sporting equipment each comprised about
23% (5.6 billion and 5.5 billion US dollars, respectively).
By 1988, the value of retail sales of sporting goods is
expected to rise to 29 billion US dollars, reflecting 4%
average annual growth. Details are given of the US sports
goods market, based on a market survey.
BUSINESS COMMUNICATIONS CO.INC.
USA
Accession no.541095
Item 390
Gummibereifung
70, No.7, July 1994, p.52-4
German
BBS TRANSFERS MOTOR SPORT
TECHNOLOGY TO SERIES PRODUCTION
BBS is developing the sports and racing side of its wheel
manufacturing business. It has pioneered the use of
magnesium as a lightweight material for wheels. The
Benetton Ford and Formula 1 Ferrari teams have
successfully used these wheels.
BBS KRAFTFAHRZEUGTECHNIK AG
EUROPEAN COMMUNITY; EUROPEAN UNION; GERMANY;
WESTERN EUROPE
Accession no.540834
Item 391
Reinforced Plastics
39, No.2, Feb.1995, p.15
NICKEL COATING OPENS UP NEW
OPPORTUNITIES FOR FIBRES
A new coating facility from Inco Europe is described, in
which carbon fibres are coated with nickel. The coated
fibres called VaporFab can be incorporated into a product
in the normal way via weaving, chopping, blending and
moulding, to provide EMI/RFI shielding for a number of
electrical and electronic devices. In addition, the fibres
are being used in the leisure industry, where their light
weight, strength and attractive appearance is being
exploited in the shafts of golf clubs, fishing rods and tennis
racquets.
INCO EUROPE LTD.
EUROPEAN COMMUNITY; EUROPEAN UNION; UK;
WESTERN EUROPE
Accession no.540465
Item 392
Plastverarbeiter
45, No.12, Dec.1994, p.106-7
German
PRODUCTS MANUFACTURED FROM
COMPOSITE MATERIALS: LIGHT, DURABLE
AND SAFE
Due to their special properties, reinforced plastics and
composite materials have opened up new dimensions for
design and construction in many applications. Apart from
products for sport and leisure or items of daily use, many
industrial products are also made from these materials.
EUROPEAN COMMUNITY; EUROPEAN UNION; GERMANY;
WESTERN EUROPE
Accession no.538986
Item 393
Rubber and Plastics News
24, No.9, 21st Nov.1994, p.1/14
CHANGE
Walters S
An evolution is said to have occurred in the technology
of bowling ball manufacture, including new materials,
new designs and new computer software. All of these
factors have turned what was once a fairly simple product
into a high technology sporting item. Details are given.
FABALL ENTERPRISES INC.
USA
Accession no.537041
Item 394
Financial Times
No.32551, 16th Dec.1994, p.14
HOT SYNTHETICS
Griffith V
The last decade has seen a revolution in cold-weather
apparel and these days stores stock clothes made of hightechnology
fabrics, mainly derived from polyester.
Polyester is manipulated in various ways to improve
insulation, with the main focus on keeping moisture away
© Copyright 2001Rapra Technology Limited 93

References and Abstracts
from the skin. Patagonia now offers a chemically-altered
polyester called Capilene which has gone through
antimicrobial treatment to help the fabric reject odour.
DuPont has introduced ThermaStat and Thermax,
lightweight polyester materials that aim to trap air next
to the body while funnelling moisture to the outer layer,
where it evaporates. Thinsulate by 3M has emerged as
one of the most popular insulating materials, particularly
for cold-weather gloves and ski pants.
EUROPEAN COMMUNITY; EUROPEAN UNION; UK;
WESTERN EUROPE
Accession no.536441
Item 395
Plastics News International
Nov.1994, p.25
SEAT MANUFACTURER WITH OLYMPIC
GOLD
Camatic Pty Ltd. has secured a multi-million dollar
contract to supply and install 54,000 seats for the 1996
Olympic Games Stadium in Atlanta. The seats and backs
are blow moulded in HDPE and are supported by an
aluminium frame. The process means the mouldings are
hollow inside, which helps give them flex and provides a
cushioning effect. The company says one of the key
factors in its successful bid for the contract was an intricate
filigree effect incorporated into the seating. Camatic
currently supplies over 90% of all cinema seats to the
major chains in Australia and has become a leader in
cinema, auditorium and stadium seating worldwide.
CAMATIC PTY.LTD.
AUSTRALIA
Accession no.534938
Item 397
Du Pont Magazine European Edition
Vol.87, Sports Issue, 1993, p.20-1
SEASONABLE GOLF
The design of an electric golf trolley, the Classic, from
Powakaddy, is described. It incorporates weight reducing
plastics from Du Pont which are capable of withstanding
extreme climatic conditions. The main chassis uses Zytel
nylon, the gear housing Rynite 935 glass reinforced PETP,
and Zytel and Delrin acetate homopolymers are used for
the gears.
POWAKADDY LTD.
EUROPEAN COMMUNITY; UK; WESTERN EUROPE
Accession no.488908
Item 396
Blackburn, 1992, pp.25. 12ins. 26/4/93. 42C12-63Ag-
6R
NETLON ADVANCED TURF. ROOTZONE
TECHNOLOGY - STRONGER BY NATURE
Netlon Ltd.
Netlon Advanced Turf is designed to stabilise the turf
rootzone, especially on grassed areas which need to
withstand either vehicular or pedestrian traffic. The system
consists of small mesh elements made from
polypropylene. Reinforcing the rootzone provides the turf
with greater stability and strength resulting, in the case
of golf courses and football pitches, in consistent ball
bounce and quick recovery from damage. Further details
are given of its advantages in maintaining turf, and
detailed installation instructions.
EUROPEAN COMMUNITY; UK; WESTERN EUROPE
Accession no.493779
94 © Copyright 2001 Rapra Technology Limited

Subject Index
A
ABRASION, 133 305
ABRASION RESISTANCE, 14 33
49 50 73 74 88 120 135 137
149 153 166 215 217 223 228
244 252 273 274 276 279 284
306 319 324 338 340 359 374
375 384
ACCELERATION, 296
ACCELERATOR, 167 273
ACCELEROMETRY, 296
ACCESSORY, 217 285
ACCIDENT, 201
ACCURACY, 46 186
ACOUSTIC INSULATION, 139
ACOUSTIC PROPERTIES, 320
343
ACQUISITION, 1 17 51 58 80 94
129 193 231 266 288
ACRYLIC, 25 94 226 266 294
ACRYLIC COPOLYMER, 115
ACRYLIC POLYMER, 49 87 221
228 320
ACRYLIC RESIN, 49 87 320 346
ACRYLONITRILE BUTADIENE
STYRENE, 1 8 38 51 81 87 106
115 166 168 171 195 207 217
226 248 262 294 337 341 351
377
ACRYLONITRILE BUTADIENE
COPOLYMER, 192 246 274
275 324
ACRYLONITRILE-STYRENE-
ACRYLATE TERPOLYMER,
87
ACRYLONITRILE-STYRENE-
ACRYLIC ESTER
TERPOLYMER, 87
ACRYLONITRILE-STYRENE-
ACRYLIC TERPOLYMER, 87
ACRYLONITRILE-STYRENE-
ACRYLONITRILE
TERPOLYMER, 351
ACTIVATED CARBON, 248
ACTUATOR, 275
ADDED VALUE, 229
ADDITIVE, 16 68 75 115 121 134
135 148 163 167 177 189 216
220 228 248 260 273 274 276
290 305 324 325 340 377 393
ADHESION, 73 88 113 147 191
209 229 273 276 284 319 320
324 325 333
ADHESION PROMOTION, 229
Subject Index
276
ADHESIVE, 33 38 75 83 88 96
103 118 132 188 193 214 216
229 234 276 292 310 325 333
344 350 370 371 374 377 384
ADVANCED COMPOSITE, 18 22
188 193 247 292 320 333
ADVERTISING, 338
AEROBIC, 379
AERODYNAMIC PROPERTIES,
22 143 159 188 375
AERONAUTICAL
APPLICATION, 285
AEROSPACE APPLICATION, 60
121 193 266 333
AESTHETIC, 114 120 134 135
143 153 217
AGING, 134 135 162 263
AGING RESISTANCE, 306
AGREEMENT, 74 201 212
AGRICULTURAL
APPLICATION, 332
AIR BAG, 26 81
AIR BARRIER, 355
AIR ENTRAPMENT, 273 394
AIR EVACUATION, 167
AIR FILTER, 294
AIR FLOW, 19
AIRBAG, 26 81
AIRCRAFT, 83 193
AIRCRAFT INTERIOR, 90
AIRFOIL, 188
AIRFRAME, 333
AIRPORT, 24 122
ALCOHOL RESISTANCE, 115
ALCOHOLIC BEVERAGE
BOTTLE, 115
ALIPHATIC, 196 234 273
ALL-TERRAIN, 350
ALLERGY, 164
ALLIANCE, 17 80 91 202
ALLOY, 135 150 195
ALUMINIUM, 18 30 41 47 66 83
141 150 166 228 265 320 377
389
AMORPHOUS, 20 375
ANALYSIS, 54 64 79 128 142 143
151 179 194 206 273 275 295
296 305 319
ANCILLARY EQUIPMENT, 345
ANISOTROPIC, 79 143
ANISOTROPY, 79 143
ANTIFATIGUE MAT, 381
ANTIFOGGING, 49
ANTIFOULING, 375
ANTIGELLING AGENT, 167
ANTIMICROBIAL AGENT, 220
394
ANTISTATIC, 176
APPEARANCE, 29 38 40 46 72
ARAMID FIBRE, 6 7 8 18 63 193
228 292 320 322 333 347 359
ARAMID FIBRE-REINFORCED
PLASTIC, 43 122 182 231 247
248 320 321 322 357 362 376
ARAMID FIBRE-REINFORCED
RUBBER, 87
ARCHERY, 378
ARCHITECTURAL
APPLICATION, 94
ARM REST, 53 134
AROMATIC OIL, 274
ARTIFICIAL GRASS, 152 208
ASPHALT, 260
ASSEMBLY, 23 24 83 134 203 222
258 325 340 343 344 371
ASSOCIATION, 41 44 50 85 153
168 175 276 305 318 324
ATTENUATION, 190
AUTOCLAVE, 143 265 354
AUTOCLAVE MOULDING, 320
AUTOMATION, 5 46 63 68 127
128 141 180 203 216 337 340
344 377
AUTOMOTIVE APPLICATION, 3
17 22 38 52 55 64 75 80 86 87
94 101 105 117 118 119 123
126 129 156 163 179 183 191
201 204 210 212 229 232 234
245 284 289 290 291 304 307
336 342 379
AWARD, 106 205 260 272 294 313
339
B
B-STAGING, 216
BACKREST, 53
BACTERIA RESISTANCE, 134
284 324
BALL, 108 120 131 137 153 174
256 272 314 349 353 378 379
387 388 393
BALLISTIC RESISTANCE, 6 228
BALLOON, 291
BALSA, 167 315 320
BAN, 125
BARRIER PACKAGING, 204
BARRIER SCREW, 366
BASALT FIBRE-REINFORCED
© Copyright 2001 Rapra Technology Limited 95

Subject Index
PLASTIC, 4
BASEBALL, 106 153 388
BASEBALL BAT, 18 43 106 107
BASKETBALL, 111 379
BAT, 43
BATH, 129
BEAD, 336
BEAM, 79 142 296 333
BEARING, 126 284
BEDDING, 101 116 284 365 374
BELT, 252 291
BELTING, 20 252
BELTS, 20 252
BIAXIAL, 364
BICYCLE, 22 23 30 34 47 49 70
83 87 88 99 109 127 141 143
150 158 165 185 188 198 216
217 265 268 285 297 313 319
335 345 359 371 378 379 380
BICYCLE FRAME, 87 141 143
151 158 165 185 283 313 319
333 335 367 379
BICYCLE HELMET, 137
BICYCLE SEAT, 87 141 217 319
BICYCLE TYRE, 87 92 199 217
BICYCLE WHEEL, 87 96 171
BIDIRECTIONAL, 142
BINDER, 33 192 196 260 330 374
BINDING, 7 28 261 292
BIOCIDE, 220
BIODEGRADABLE, 189
BIODETERIORATION, 189
BIOFILTRATION, 216
BISMALEIMIDE POLYMER, 193
BISMALEIMIDE RESIN, 193
BLADDER, 84 137 235 300
BLADE, 278 317
BLANK, 31
BLEND, 13 52 87 119 120 135 163
166 192 195 204 212 226 246
248 262 273 274 276 308 330
337 341 379
BLENDING, 190
BLISTER, 365
BLOCK COPOLYMER, 120 135
153 166 231 248 276 324 325
BLOW MOULD, 375
BLOW MOULDING, 29 31 62 66
107 217 395
BLOWING AGENT, 15 284 324
339 343 344 377
BLOWN FILM, 284
BOAT, 14 41 44 45 50 63 79 87 88
109 110 114 118 129 137 142
156 167 168 200 221 226 247
257 261 315 320 321 322 323
331 334 339 340 360 362 363
375 376 379
BOAT BUILDING, 44 340
BODY ARMOUR, 6 359
BODY PANEL, 3 112 245 284
BOND, 7 83 88 96 102 132 141
188 191 229 248 250 273 276
370
BOND STRENGTH, 88 147
BONDABILITY, 212
BONDING, 7 83 88 96 102 132
141 188 191 229 248 250 273
276 325 329 333 340 370 377
BONDING AGENT, 88 229 245
248 273 276 325 377
BONNET, 112
BOOM, 79
BOOT, 6 68 120 135 153 166 168
231 248 306 324 379
BORON FIBRE-REINFORCED
PLASTIC, 357
BOTTLE, 2 107 115 217 228 230
330 334
BOUNDARY CONDITION, 142
BOWLING, 393
BOWLING BALL, 2 70 97 211
349
BOX, 119
BOXING, 194
BRACKET, 217
BRAIDED FIBRE, 283
BRAIDING, 333
BRAKE, 64 87 158 266
BRAKING, 133
BREATHABILITY, 87 228 284
BREATHABLE, 20 374
BREATHING APPARATUS, 6
BRIDGE, 183 333
BROMOBUTYL RUBBER, 246
BRONZE, 305
BUCKET, 334
BUILDING APPLICATION, 24 37
38 52 64 89 101 102 103 105
134 156 182 183 189 193 196
210 219 243 281 286 296 298
352 355 361
BUILDING INDUSTRY, 122
BUILDING RENOVATION, 102
BULK COLOUR, 41
BULK MOULDING
COMPOUND, 156
BULKHEAD, 333
BUMPER, 78 105 304 307
BUOYANCY, 129 137 261 281 339
BUSINESS MACHINE, 86 90 91
304
BUSINESS PRACTICE, 131
BUSINESS STRATEGY, 160 258
323 348
BUTYL RUBBER, 87 88 246 274
BY-PRODUCT, 65
C
CABLE, 134
CABLE INSULATION, 229
CALCULATION, 11 98 161
CALENDERING, 134 340
CAMERA, 202
CAMPING, 137 379
CANOE, 41 50 51 70 114 320 321
CAPACITY, 17 46 80 91 94 115
128 135 144 155 156 193 230
266 316 324 377
CAPACITY UTILISATION, 91
CAPILLARY GAS
CHROMATOGRAPHY, 305
CAPITAL, 229
CAPITAL EXPENDITURE, 91
CAPROLACTONE POLYMER, 81
CAR, 3 112 126 133 140 193 206
229 245 282 379
CAR TYRE, 133 282
CARBON, 5 23 30 45 47
CARBON BLACK, 163 246 248
276 305
CARBON FABRIC, 60 319 335
CARBON FIBRE, 60 64 83 89 121
122 254 266 357 391
CARBON FIBRE-REINFORCED
PLASTIC, 3 4 6 7 8 9 10 11 12
18 35 36 41 43 63 64 79 81 87
89 109 116 121 122 127 128
141 142 143 151 155 156 165
166 179 180 182 183 185 188
193 243 245 247 248 250 261
265 266 271 277 283 292 293
313 319 320 321 331 333 335
356 359 362 376
CARBON FIBRE-REINFORCED
RUBBER, 89
CARBON-CARBON POLYMER,
64
CARBONISATION, 266
CARBOXYLATION, 246
CARCINOGENICITY, 189
CARPET BACKING, 291
CARPET UNDERLAY, 291
CASE HISTORY, 61 207
CASH FLOW, 377
CASING, 123
CAST, 307
CASTABLE, 307
CASTING, 2 34 166 196 324
CATALYSIS, 52 195
CATALYST, 210 287
CATALYTIC HEATER, 294 334
CATAMARAN, 109 247 339 376
96 © Copyright 2001 Rapra Technology Limited

Subject Index
CATERING APPLICATION, 281
CAVITY, 131
CELL STRUCTURE, 296
CELLULOSE, 115
CELLULOSE PROPIONATE, 345
CEMENT KILN, 125
CERAMIC, 228 357
CERAMIC FIBRE, 228
CERTIFICATION, 135 229 295
378
CFC REPLACEMENT, 377
CHAIN BRANCHING, 305
CHAIN EXTENSION, 273
CHAIN LENGTH, 153
CHARACTERISATION, 64
CHASSIS, 245 337
CHEMICAL BONDING, 212
CHEMICAL INDUSTRY, 291
CHEMICAL MODIFICATION,
101 276 324
CHEMICAL PROPERTIES, 14 96
112 115 134 147 155 166 204
228 270 276 287 304
CHEMICAL RECYCLING, 101
CHEMICAL RESISTANCE, 14 96
97 112 115 134 147 155 166
204 228 235 270 276 287 304
319 324 338 340
CHEMICAL STABILITY, 65
CHEMICAL STRUCTURE, 20
120 153 204 305
CHIMNEY, 320
CHLORINATION, 276
CHLOROSULFONATED
POLYETHYLENE, 14 41 50
340
CHOPPED STRAND, 112 129 227
CHROMATOGRAPHY, 305
CIVIL ENGINEERING, 169 183
243 286 333
CLAMP FORCE, 3 53 202 337
366
CLAMPING FORCE, 3 53 202
CLAMPING UNIT, 244
CLARITY, 204 246
CLAY, 274
CLEANING, 68 72 203
CLEANING DEVICE, 122
CLEAR, 273
CLEARCOAT, 90 94 128
CLEAT, 275 309
CLIP, 123
CLOSED CELL, 41 248 296 304
351 365
CLOSURE, 115 217 269
CLOTHING, 25 49 82 87 92 115
116 120 144 153 223 228 231
232 233 345 347 365 375 389
394
COAGENT, 273
COATED, 350
COATED FABRIC, 14 26 41 50 81
102 114 189 228 340 379
COATED FIBRE, 391
COATING, 5 12 14 24 25 33 49 64
75 90 94 128 177 181 190 228
234 276 305 340 343 374 375
COBALT NAPHTHENATE, 167
COEFFICIENT OF FRICTION,
212 273 274 275 276 305 324
COEXTRUSION, 20 38 87 191
303
COG WHEEL, 123
COHESION, 77 88 375
COINJECTION, 81 244
COINJECTION MOULDING, 38
166
COLD BONDING, 340
COLD CURING, 320
COLLISION, 194
COLOUR, 41 87 94 102 114 134
135 154 186 195 217 262 273
295 325
COLOUR CODING, 87
COLOUR MATCH, 294
COLOURABILITY, 13 14 70 120
212
COLOURANT, 2 115 325
COLOURED, 202
COLOURING, 41 153 232 325
COLUMN, 333
COMBUSTION, 176
COMFORT, 6 114 141 178 228
296 325
COMMINGLED, 60 163
COMMUNICATIONS
EQUIPMENT, 90
COMPACTION, 141 152
COMPATIBILISATION, 324
COMPATIBILITY, 96 132 212 333
COMPETITIVENESS, 83 86 160
211
COMPOST, 383
COMPOUND, 135 186 195 226
229 248 274 276
COMPOUNDING, 135 174 229
273 274 276 295 324
COMPRESSIBILITY, 59
COMPRESSION, 20 142
COMPRESSION MOULD, 320
324
COMPRESSION MOULDING, 4
5 31 39 55 107 127 227 229
261
COMPRESSION PROPERTIES,
141 143 152 183 194 225 304
COMPRESSION RESISTANCE,
104
COMPRESSION SET, 120 153
304
COMPRESSION STRENGTH,
143 304 320
COMPRESSION STRESS, 194
COMPRESSIVE STRENGTH, 183
COMPRESSIVE STRESS, 194
COMPUTER, 86 90 304 337
COMPUTER AIDED ANALYSIS,
296 305 319
COMPUTER AIDED DESIGN, 4 5
8 11 12 22 34 45 63 68 71 79
143 151 205 207 264 265 278
294 319 327 335 340 359 361
366 377 378 393 397
COMPUTER AIDED
ENGINEERING, 359
COMPUTER AIDED
MANUFACTURE, 63 68 71
294 377
COMPUTER CONTROL, 68 216
COMPUTER MODEL, 11 79 142
296
COMPUTER NUMERICAL
CONTROL, 42 165
COMPUTER PROGRAM, 11 305
COMPUTER SIMULATION, 12
79 91 142 143 294 296
COMPUTER SOFTWARE, 11 12
CONCRETE, 64 243 296
CONCURRENT ENGINEERING,
264
CONDENSATION, 365
CONDOM, 291
CONDUCTIVE FILLER, 305
CONDUCTIVE MATERIAL, 116
CONFERENCE, 75 79 153 221
273 274 275 276 316 379
CONFORMABILITY, 39
CONSOLE, 294
CONSOLIDATION, 313 333 380
CONSTANT PRESSURE, 305
CONSTRUCTION, 64 75 83 101
159 374
CONSUMER GOODS, 80 359
CONSUMPTION, 17 53 80 82 105
121 128 156 168 169 193 210
234 266 279 284 291 313 329
334 357
CONTACT ANGLE, 276 305
CONTACT AREA, 274
CONTACT MOULD, 319 320
CONTAINER, 115 139 217 342
CONTINUOUS FIBRE, 39 292
342 359
CONTINUOUS FILAMENT, 165
© Copyright 2001 Rapra Technology Limited 97

Subject Index
232
CONTINUOUS PHASE, 276
CONTINUOUS STRAND MAT,
12
CONTRACEPTIVE, 291
CONTRACT, 62 66 129 301 395
CONTROL EQUIPMENT, 46 202
251
CONTROL SYSTEM, 68
CONVEYOR, 80
COOLING, 40 65
CORE, 79 97 108 118 131 150 166
167 170 231 248 292 296 320
375 376 377 380
CORNERING, 133
CORROSION, 96
CORROSION RESISTANCE, 88
94 122 126 217 319 391
COUPLING, 64
COUPLING AGENT, 246
COVER, 294
CRACK GROWTH, 65
CRACK RESISTANCE, 276
CRACKING, 65 98 276 320
CRASH BARRIER, 27 117
CRASH HELMET, 49 87 378
CRASH RESISTANCE, 27 128
CRATE, 334
CREDIT CARD, 189
CREEP, 88 120 134 153 155
CREEP RESISTANCE, 28 358
CREPE RUBBER, 291
CROSSLINKED, 54 68 178 210
302 339
CROSSLINKING, 52 62 118 148
218
CROSSLINKING AGENT, 15 132
CRUMB RUBBER, 37 152 157
172 192 196 260 279 288 291
299 318 352 368 373 381 384
CRYOGENIC, 37
CRYSTAL STRUCTURE, 65
CRYSTALLINITY, 20 65 204 273
375
CRYSTALLISATION, 55 273
CUMENE HYDROPEROXIDE,
167
CUMYL HYDROPEROXIDE, 167
CURE TIME, 292 319
CURING, 23 34 45 88 94 112 128
141 143 149 167 196 248 283
319 320 335 350 376
CURING AGENT, 15 132 167 273
283
CURING BLADDER, 127
CURING PRESS, 324
CURING PRESSURE, 143
CURING TEMPERATURE, 143
248 273 274 292 376
CURVATURE, 49 79 333
CUSHION, 15 225 284
CUSHION FLOOR, 145
CUSHIONING, 59 74 152 208 395
CUSTOM COMPOUNDING, 229
CUSTOM MOULDING, 211 337
364
CUT RESISTANCE, 244
CUTLERY, 28
CUTTING, 5 115 222 340
CYCLE TIME, 32 38 46 53 61 74
97 100 127 131 261 292 343
361
CYCLING, 93
CYLINDER, 6
D
DAMPER, 127
DAMPING, 36 38 52 59 84 88 141
155 178 261 283 296 372
DASHBOARD, 90
DATA STORAGE, 337
DATABASE, 229
DEBT, 91
DECK, 50 119 129 262
DECORATION, 90 97 115 120 153
166 222 231 248 359 377
DEEP DRAWING, 294
DEFECT, 46 79 167 276
DEFENCE APPLICATION, 266
301
DEFORMATION, 7 59 79 88 142
150 254 296
DEGRADABLE, 189
DEGRADATION, 65 75 132 134
135 162 263
DEGREE OF
POLYMERISATION, 375
DELAMINATION, 4 251 315 320
375
DEMAND, 17 30 52 60 80 94 118
121 130 193 210 233 239 260
266 312 332 333 343 379
DEMOULD, 273 319
DEMOULDING, 5 222 366
DENIER, 228
DENSITY, 52 64 65 68 74 77 78 79
100 109 115 118 120 135 142
153 155 166 210 248 261 276
284 304 305 319 324 325 326
375
DENTAL APPLICATION, 56
DESIGN, 4 5 11 12 19 21 22 28 29
34 35 38 39 45 46 53 56 61 63
66 68 71 79 83 93 106 118 122
133 141 143 150 158 159 161
165 179 188 197 198 201 205
206 207 209 212 217 238 250
252 255 264 265 269 270 275
278 285 290 302 307 308 311
319 321 327 331 332 340 345
354 355 378 386 392 393 395
DEVELOPMENT, 6 8 29 40 42 52
66 74 83 93 119 123 156 160
186 190 194 202 204 207 246
260 270 272 346 385 387 393
DIAMETER, 97 117 293 319
DICYCLOPENTADIENE
POLYMER, 290
DIELECTRIC PROPERTIES, 325
DIFFERENTIAL THERMAL
ANALYSIS, 273 305
DIFFUSION COATING, 64
DIFUNCTIONAL, 273
DIISOCYANATE, 273
DIMENSION, 41 50 79 134 247
332 375
DIMENSIONAL STABILITY, 53
102 112 219 319 341 343 375
DIMENSIONLESS, 275
DIMENSIONLESS ANALYSIS,
64
DIMETHYL ANILINE, 167
DINGHY, 41 44 50 109 114 340
DIPHENYLMETHANE
DIISOCYANATE, 33 42 162
218 273 289 306 307 324 330
DIPPED, 291
DIPPING, 291
DIRECT INJECTION, 68
DIRECT MOULDING, 324
DIRECTIVE, 101 114 125
DIRT REPELLENT, 102
DISC, 194
DISCOLOURATION, 325
DISCOLOURATION
RESISTANCE, 51
DISCONTINUOUS, 39
DISCRETISATION, 79
DISPENSER, 343
DISPENSING, 66 344
DISPERSANT, 326
DISPERSING AGENT, 326
DISPERSION, 132 167
DISPLACEMENT, 142 296
DISPLAY PANEL, 338 392
DISTORTION, 335
DISTRIBUTION, 229
DISTRIBUTOR, 229 271 381
DIVERSIFICATION, 166 211 340
DIVING EQUIPMENT, 67 173
DIVING MASK, 173 308
DIVING SUIT, 116 173
DOMAIN, 276
98 © Copyright 2001 Rapra Technology Limited

Subject Index
DOME, 320
DOMESTIC EQUIPMENT, 38 86
90 94 101 122 139 191 212 220
DOOR, 38 112
DRAINAGE, 134
DRAPEABILITY, 39 127
DRAWING, 228
DRIVE SHAFT, 155
DROP-WEIGHT, 335
DROPLET, 305
DRY TRACTION, 273 274
DRYING, 230 276
DUAL DENSITY, 68 304
DUAL INJECTION MOULDING,
38 166
DUCTILITY, 143
DURABILITY, 5 14 24 29 38 42
46 47 51 91 122 149 171 215
225 235 246 252 262 273 274
276 284 303 306 310 329 367
370 371
DUST, 275
DYE, 359
DYEABILITY, 228
DYNAMIC LOADING, 296
DYNAMIC MECHANICAL
ANALYSIS, 224
DYNAMIC MECHANICAL
PROPERTIES, 120 148 153
224 274 296
DYNAMIC MECHANICAL
THERMAL ANALYSIS, 148
DYNAMIC MODULUS, 296
DYNAMIC PROPERTIES, 20 120
148 153 224 274 296
DYNAMIC STORAGE
MODULUS, 307
DYNAMIC
THERMOMECHANICAL
ANALYSIS, 148
E
E-GLASS, 254 320
E-MODULUS, 11 296
EARNINGS, 129 193
EARTHQUAKE, 183 243
EASY-OPEN, 146
EBONITE, 305
EDUCATION, 179
EFFICIENCY, 5
EJECTION, 255
ELASTIC DEFORMATION, 296
ELASTIC MEMORY, 228 325
ELASTIC MODULUS, 11 64 79
88 135 141 248 296 319
ELASTIC PROPERTIES, 19 20 88
145 274
ELASTICITY, 88 97 120 142 145
153 178 217 228 296
ELBOW, 216
ELECTRIC CAR, 91
ELECTRIC VEHICLE, 397
ELECTRICAL APPLICATION, 17
204 229 391
ELECTRICAL CONDUCTIVITY,
12 155 176 305
ELECTRICAL EQUIPMENT, 123
ELECTRICAL PROPERTIES, 33
305 325
ELECTRICAL RESISTIVITY, 64
325
ELECTRICALLY CONDUCTIVE,
391
ELECTROMAGNETIC SHIELD,
343 391
ELECTRON BEAM CURING, 333
ELECTRON MICROSCOPY, 113
267
ELECTRON SCANNING
MICROSCOPY, 113 267
ELECTRONIC APPLICATION, 75
80 89 156 193 266
ELECTRONIC EQUIPMENT, 33
64 86 391
ELECTROSTATIC, 216
ELECTROSTATIC ADHESION,
88
ELECTROSTATIC BONDING, 88
ELECTROSTATIC COATING, 181
ELECTROSTATIC PROPERTIES,
305
ELECTROSTATIC SPRAYING, 94
ELLIPTICAL, 319
ELONGATION, 210 228 274 306
ELONGATION AT BREAK, 88
102 155 307 319 324
EMISSION, 165 167
EMISSION CONTROL, 31
EMPLOYEE, 62 91 108 131 288
295
EMPLOYMENT, 44 92 114 135
229 230 231 271 301 364 373
ENCAPSULATION, 205
ENCLOSURE, 294
END CAP, 273
END-CAPPING, 273
ENDOTHERMIC AGENT, 343
ENERGY ABSORPTION, 4 6 23
25 27 35 36 59 88 160 190 202
206 212 255 286 302 304 319
335 394
ENERGY APPLICATION, 64
ENERGY CONSUMPTION, 3 54
127
ENERGY DISSIPATION, 20 117
ENERGY RECOVERY, 101 125
ENERGY TRANSFER, 293
ENGINE, 320
ENGINE COVER, 129
ENGINEERING, 61 80 285
ENGINEERING APPLICATION,
17 41 48 49 61 70 80 82 87 115
135 166 217 231 248 249 268
269 285 375 379
ENGINEERING PLASTIC, 17 41
48 49 70 82 87 115 135 166
197 198 204 212 217 231 248
249 268 269 375 379
ENGINEERING
THERMOPLASTIC, 197 198
204 212 343 345 346 359
ENVIRONMENT, 37 167 168 289
ENVIRONMENTAL IMPACT, 42
52 189 232 298
ENVIRONMENTAL
LEGISLATION, 101 125
ENVIRONMENTAL
PROTECTION, 25 216 260 330
ENVIRONMENTAL
RESISTANCE, 325 330
EPOXY RESIN, 4 6 8 11 23 31 35
36 43 47 62 64 79 88 94 103
109 112 118 122 128 141 143
151 158 166 167 179 188 193
201 245 247 248 254 261 265
283 292 296 319 320 321 333
335 344 350 356 357 370 371
375 376 377
EPOXY-VINYL ESTER RESIN,
129 167
EQUATION, 64 77 79 98 161 194
305 319
EQUESTRIAN, 373
EQUIPMENT, 46 66 80 137 149
218 232 260 336 344 370
ERGONOMIC, 212
ETHYLENE-GLYCOL
COPOLYMER, 120 153
ETHYLENE-OCTENE
COPOLYMER, 287
ETHYLENE-PROPYLENE-
DIENE TERPOLYMER, 38
192 239 246 273 274 328
ETHYLENE-STYRENE
COPOLYMER, 52 281
ETHYLENE-VINYL ACETATE
COPOLYMER, 59 68 78 81
124 194 225 264 276 320 324
EVALUATION, 11 254
EXERCISER, 130
EXHIBITION, 41 44 50 68 114
138 216 221 297 302 318
EXOTHERMIC, 167
© Copyright 2001 Rapra Technology Limited 99

Subject Index
EXPANDED, 4 27 78 304 336 380
EXPANSION, 155 209
EXPANSION COEFFICIENT, 284
EXPERIMENTAL DESIGN, 19
EXPORT, 41 42 44 66 68 86 91 92
114 146 168 227 228 234 272
291 324 340 366 379 395
EXTENDER, 274 276
EXTENSOMETRY, 79 142
EXTRUDING, 8 13 20 52 55 66 72
84 135 166 203 217 221 234
248 253 258
EXTRUSION, 8 13 20 52 55 66 72
84 135 166 203 217 221 234
248 253 258 334 377
EXTRUSION BLOW MOULD,
375
EXTRUSION COMPOUNDING,
135
EYE PROTECTION, 345
F
FABRIC, 14 26 41 50 81 87 102
113 114 116 189 223 228 257
333 340 365 394
FABRIC REINFORCED, 348
FABRICATION, 5 215 267 335
FACADE, 102
FAILURE, 45 98 118
FAILURE ANALYSIS, 65
FAIRING, 22
FANCY GOODS, 115
FASTENER, 38 217
FASTENING, 102 134
FATIGUE, 88 134 141 155 248 307
319 320 376
FATIGUE RESISTANCE, 20 262
FAULT DIAGNOSIS, 167
FEE, 383
FEEDSTOCK, 381
FELT, 310
FENCING, 378
FERTILISER, 382
FIBRE, 30 39 47 64 71 82 87 89
134 144 152 156 165 167 190
200 226 228 231 232 239 253
257 292 333 360 375 379 394
FIBRE ANGLE, 79
FIBRE CONTENT, 79 96 204 313
FIBRE DIAMETER, 228
FIBRE GLASS, 60 64 83 347
FIBRE LENGTH, 293
FIBRE ORIENTATION, 79 141
142 143 261 293 319 335 359
FIBRE PLACEMENT, 335
FIBRE SPINNING, 228
FIBRE TREATMENT, 119
FIBRE-REINFORCED PLASTIC,
3 4 6 7 8 9 10 11 35 36 41 63
70 79 81 83 87 89 109 116 121
127 128 141 142 143 151 155
156 158 165 166 179 180 182
183 193 200 216 222 231 243
245 247 248 250 261 265 266
277 283 285 292 293 301 303
335
FIBRE-REINFORCED RUBBER,
87 89 251
FIBREFILL, 228
FILAMENT, 155 165 223 232 375
FILAMENT WINDING, 6 128 143
155 165 216 251 316 320 367
FILAMENT WOUND, 333
FILLED, 166
FILLER, 25 108 121 177 216 228
246 248 273 274 276 305
FILLING, 40 46
FILM, 84 94 120 153 163 186 234
284 360 375
FILTER, 203 230 294
FILTRATION, 216
FIN, 21
FINANCE, 1 8 17 41 44 50 68 114
115 128 129 134 135 162 166
168 203 226 229 230 231 291
301 340 377
FINE STRUCTURE, 261
FINISHING, 29 337 343
FINITE ELEMENT ANALYSIS,
54 79 128 142 143 151 179 194
206 296 307 319 335
FINITE ELEMENT ITERATIVE
METHOD, 54 79 128 142 143
151 179 194 206 296
FIRE FIGHTING, 6
FIRE RESISTANCE, 6
FISHING, 287
FISHING APPLICATION, 287 308
379
FISHING BOAT, 320 340
FISHING REEL, 379
FISHING ROD, 367 391
FIXING DEVICE, 123
FLAME PROOFING, 16 204
FLAME RETARDANCE, 16 204
FLAMMABILITY, 16 53 88 102
134 247 343
FLASH SPINNING, 338
FLATNESS, 79
FLAW, 29 40
FLEECE, 394
FLEX CRACK, 235 276
FLEX RESISTANCE, 235
FLEXIBILITY, 13 15 20 21 101
102 117 146 154 185 212 215
244 246 269 324 325 335 340
350 372 374 395
FLEXURAL MODULUS, 11 154
284 358 359
FLEXURAL PROPERTIES, 11 18
23 38 47 48 55 72 73 79 88 96
109 119 120 135 141 142 143
146 151 153 154 155 161 165
166 167 204 215 235 254 261
265 266 273 276 284 296 306
319 320 343
FLEXURAL STRENGTH, 11 120
153 324 325
FLEXURE, 18 142 319
FLIPPER, 28 261
FLOAT, 41 340 375 376
FLOOR, 24 25 91 177 190 275 296
330 352 361 369
FLOW, 128 141 269 276
FLOW ANALYSIS, 361
FLOW CHART, 335
FLOW LINE, 65 276
FLOW PROPERTIES, 12 216 242
FLUORINE COMPOUND, 248
FLUOROELASTOMER, 229
FLUOROPOLYMER, 261
FOAM, 4 13 15 19 27 31 41 42 50
51 52 62 66 68 74 75 78 79 81
87 95 98 101 104 107 114 118
138 162 166 167 170 178 186
199 210 220 225 227 228 231
248 254 261 264 276 281 289
291 296 300 303 304 306 320
324 326 336 337 339 344 351
355 365 369 372 374 375 376
377 380 395
FOAM-CORE, 4 8 31 127 129 261
302 343
FOAMING AGENT, 15 284
FOGGING RESISTANCE, 49
FOLDABLE, 12 41 114 294
FOOD PACKAGING, 33 281
FOOTBALL, 84 130 153 186 194
338 358 379 396
FOOTWEAR, 15 48 59 61 68 69
73 74 75 76 77 78 81 82 87 92
93 96 99 120 124 130 132 135
138 144 149 152 153 166 168
178 189 190 197 215 224 225
229 231 234 237 244 246 248
255 262 263 273 274 275 276
284 291 306 309 311 324 325
326 358 359 378 379 385 389
FORCE, 142 194 274 275 276 296
305
FORECAST, 121 173 182 237 239
240 241 379 389 393
FOREIGN TRADE, 41 44 68 114
100 © Copyright 2001 Rapra Technology Limited

Subject Index
168 228 324 340 379
FORMING, 1 29 31 40 170 294
FORMULATION, 19 69 148 174
195 229 295 362 363 385
FRACTURE MORPHOLOGY, 148
FRACTURE RESISTANCE, 122
FRAME, 22 262 319
FRANCHISE, 208 359
FREQUENCY, 120 296
FRICTION, 64 97 145 270 275 307
FRICTION COEFFICIENT, 212
273 274 275 276 305
FRICTION PROPERTIES, 64 145
154 273 274 275 276 305
FUEL, 125 169
FUEL CONSUMPTION, 3 322
FUEL ECONOMY, 354
FUEL RESISTANCE, 287 340
FUEL SYSTEM, 80
FUNCTIONALITY, 308
FUNDING, 383
FUNGAL RESISTANCE, 134
FURNISHING, 90
FURNITURE, 24 86 94 101 103
105 134 374
FUSED DEPOSITION
MODELLING, 207
FUSIBLE CORE, 12
G
GALVANISATION, 64
GAME, 168
GARAGE DOOR, 129
GAS, 186
GAS BARRIER, 134 333
GAS CHROMATOGRAPHY, 305
GAS INJECTION, 357
GAS INJECTION MOULDING,
53 259 277 293 308
GAS PERMEABILITY, 134
GAS-ASSISTED, 24 29 40 46 66
259 271 277
GAS-PHASE, 186
GASIFICATION, 125
GASKET, 107 386
GATE, 65 276
GATING, 255 361
GEAR, 17 80 268
GEL, 5 87 103
GEL COAT, 41 112 114 129 167
227 319 363
GEL TIME, 167
GELATION, 167
GELLING, 167
GEOGRID, 134
GEOMEMBRANE, 134
GEOMETRY, 141 142 143 296
GEOTEXTILE, 134 381
GLASS, 5
GLASS FIBRE, 60 64 83 347
GLASS FIBRE-REINFORCED
PLASTIC, 4 5 6 7 8 28 31 32
35 41 43 48 50 55 61 62 63 66
87 88 93 96 97 104 109 112
114 118 119 122 127 129 154
156 166 167 170 171 182 193
204 217 221 226 227 231 245
247 248 259 261 268 270 278
284 292 296 303 313 319 320
323 329 331 333 337 339 348
350 351 359 362 363 375 376
377 397
GLASS FILLED, 84
GLASS MAT, 167 359
GLASS TRANSITION
TEMPERATURE, 20 120 153
273 324
GLAZING, 88
GLOBALISATION, 83 379
GLOSS, 94 135
GLOVE, 6 84 233 235 291
GLYCOLYSIS, 101
GOGGLES, 87 211 269
GOLF, 40 120 130 153 166 237
309 379 381
GOLF BALL, 91 108 120 148 153
159 240 241 256 314
GOLF CART, 12
GOLF CLUB, 9 10 82 83 91 100
128 207 238 239 240 271 277
293 301 308 316 333 344 346
356 357 367 370 391
GOLF COURSE, 152 208 279 332
382 396
GOLF SHAFT, 9 10 83 271
GOLF TROLLEY, 332 397
GRADE, 20 23 52 72 195 209
GRANT, 383
GRANULAR, 208
GRANULATE, 176
GRANULATION, 213 373
GRANULATOR, 324
GRAPHICS, 303
GRAPHITE, 305
GRAPHITE FIBRE, 8
GRAPHITE FIBRE-
REINFORCED PLASTIC, 10
18 89 250 261 346 356 357
GRASS, 57 275 396
GREENHOUSE, 234 284
GRINDER, 203
GRINDING, 177 190 203 230 260
GRIP, 38 43 106 202 212 239
GROWTH, 83 160 348 389
GROWTH RATE, 17 41 44 49 50
80 82 86 91 94 105 114 128
129 130 156 166 171 173 193
204 210 231 234 241 284 313
343 357 379
GYMNASTIC EQUIPMENT, 214
H
HALOBUTYL RUBBER, 274
HALOGENATION, 324
HAND LAY-UP, 112 141 167 227
265 320
HANDLE, 18 38 56 84 123 212
311
HANDLEBAR, 87
HANDLING, 46 140 366
HARD SEGMENT, 120 144 153
228 325
HARDENER, 283
HARDENING, 83
HARDNESS, 20 68 74 78 84 88
115 120 153 212 248 263 273
274 276 284 305 319 325
HARDTOP, 3
HAZARDOUS MATERIAL, 25
HEAD REST, 15
HEADGEAR, 115
HEALTH, 75
HEALTH HAZARD, 42 164
HEAT, 270 350
HEAT ACTIVATION, 339
HEAT AGEING, 56 147
HEAT DEFLECTION
TEMPERATURE, 304
HEAT DEGRADATION, 147
HEAT DISTRIBUTION, 116
HEAT EXCHANGE, 305
HEAT FLUX, 54
HEAT INSULATION, 24 101 135
228 247
HEAT PAD, 235
HEAT REFLECTION, 228
HEAT RESISTANCE, 6 16 33 34
55 64 88 112 115 122 132 134
276 340 376
HEAT STABILISER, 134
HEAT STABILITY, 34
HEAT TRANSFER, 54 235
HEAT TRANSMISSION, 228
HEAT TREATMENT, 116
HEAT-SEALING, 134
HEATED, 54 283
HEATING, 54 283 325
HEATING ELEMENT, 116
HEAVY GAUGE, 294
HEAVY-DUTY, 103
HEAVY-VEHICLE TYRE, 136
HEEL, 273
© Copyright 2001 Rapra Technology Limited 101

Subject Index
HELMET, 6 49 87 106 171 256
300 304 378
HIGH DENSITY, 117
HIGH DENSITY
POLYETHYLENE, 41 54 65 66
82 134 166 171 248 258 305
334 338 343 364 395
HIGH FREQUENCY WELD, 340
HIGH IMPACT POLYSTYRENE,
171 294 343
HIGH MODULUS, 88
HIGH MOLECULAR WEIGHT,
305
HIGH PERFORMANCE TYRE,
282
HIGH SPEED TYRE, 133
HIGH TEMPERATURE, 204 335
HIKING BOOT, 48 93 311
HINDERED AMINE, 163
HINGE, 308
HISTORY, 64 89 159 184 353 387
388
HOCKEY, 308
HOCKEY STICK, 261
HOLLOW, 53 165
HOLLOW ARTICLE, 127 375 395
HOLLOW CHAMBER
CONSTRUCTION, 394
HOLLOW FIBRE, 228
HONEYCOMB, 142 248 296 320
376 394
HONEYCOMB STRUCTURE, 6 7
8 333 347
HORIZONTAL, 275
HORIZONTAL MACHINE, 68
HORSE RACING, 85
HORSE RIDING, 85
HORSE SHOE, 284
HORTICULTURAL
APPLICATION, 332
HOSE, 291
HOT AIR WELDING, 334
HOT MELT ADHESIVE, 132
HOT RUNNER, 366
HOUSEWARE, 90 122
HOUSEWARES, 90 122 220
HOUSING, 337 391
HOVERCRAFT, 320
HUB, 308
HULL, 5 41 50 63 79 87 109 114
119 129 167 247 320 331 363
375 376
HUMIDITY, 305
HYBRID, 94 114 359
HYBRID COMPOSITE, 18 43 247
248 319
HYBRID POLYMER, 302
HYDRAULIC, 46 280
HYDROCARBON, 305
HYDROFLUOROALKANE, 305
HYDROGEN BOND, 276
HYDROGEN SULFIDE, 134
HYDROLYSIS, 132 135 153 273
HYDROLYSIS RESISTANCE, 132
HYDROLYTIC STABILITY, 120
244 306 324
HYGROSCOPIC, 36
HYGROSCOPICITY, 276
HYSTERESIS, 20 120 153 325
I
ICE, 305
ICE SKATE, 73 82 100 135 187
248 261 270 278 317
IMMERSION, 79 90
IMPACT, 275 296 307 319 335
IMPACT ENERGY, 59
IMPACT MODIFIED, 100 150 171
204 293
IMPACT MODIFIER, 135 187 242
IMPACT PROPERTIES, 6 20 27
28 32 49 51 65 72 73 84 88 96
97 98 100 102 110 114 115 117
119 120 135 146 153 154 166
185 190 194 206 217 242 247
248 249 261 262 269 270 275
278 296
IMPACT RESISTANCE, 20 27 51
72 73 84 96 97 98 100 110 117
119 146 154 185 206 249 261
269 270 304 328 344 362
IMPACT STRENGTH, 6 20 28 32
49 65 88 102 114 115 120 135
153 166 217 242 247 248 278
284 320 322 341 375 377
IMPACTOR, 296
IMPORT, 17 80 168 228 240 291
379
IMPREGNATION, 167 170 216
247
IN-HOUSE, 356
IN-MOULD COLOURING, 3
IN-MOULD DECORATING, 248
IN-SITU POLYMERISATION,
374
INCINERATION, 101 125
INCOME, 91
INCUBATOR, 116
INDENTOR, 194
INDOOR SPORTS SURFACE, 328
INDUCTION CURING, 370
INDUSTRIAL APPLICATION, 91
122 123 182 210
INDUSTRIAL ROBOT, 340 377
INDUSTRIAL TYRE, 307
INDUSTRY, 5 71 149
INFLATABLE, 14 26 41 44 50 84
114 137 203 340
INFLATABLE STRUCTURE, 333
INFORMATION MANAGEMENT
SYSTEM, 229
INFORMATION TECHNOLOGY,
343
INFRASTRUCTURE, 266 333
INFUSION MOULDING, 167
INJECTION, 346
INJECTION BLOW MOULDING,
217
INJECTION MOULD, 68 203 324
375 377
INJECTION MOULDED, 303 334
INJECTION MOULDING, 3 12 15
20 24 28 29 40 46 53 55 56 61
64 65 66 68 71 73 78 84 86 87
96 97 100 110 115 120 131 134
135 138 150 153 154 163 166
171 178 191 197 198 203 211
217 218 221 229 231 234 248
253 259 262 264 270 271 276
277 278 280 287 290 293 309
314 316 317 323 337 343 361
366 385 395
INJECTION MOULDING
MACHINE, 40 46 131 202 244
337
INJECTION PRESSURE, 202 283
INJECTION UNIT, 202 244
INSERT, 141 143 153 217 283 324
INSERT MOULD, 20 38 48 70 73
84 97 202 212 244 325
INSERT MOULDING, 38 120 153
191 212
INSOLE, 48 291
INSTALLATION, 40 396
INSTITUTION, 11 16 22 36 55 78
79 87 113 118 142 168 176 194
214 254 296
INSTRUMENT PANEL, 234 294
INSULATED, 13 177
INSULATION, 13 24 101 102 134
135 177 228 229 247 355 369
374
INTEGRAL SKIN FOAM, 304
336 343
INTERCHANGEABLE, 73
INTERFACE, 73
INTERFACIAL ADHESION, 319
320
INTERLAMINAR SHEAR, 333
INTERNAL STRESS, 143
INVESTMENT, 1 8 17 128 129
162 203 226 230 291 301 314
343 356 359 366 377
102 © Copyright 2001 Rapra Technology Limited

Subject Index
IONENE POLYMER, 166
IONOMER, 166
IONOMER RESIN, 241 256
IRON OXIDE, 235
ISOCYANATE, 132 218 307 324
ISOCYANATE GROUP, 324
ISOPARAMETRIC, 79
ITERATION, 79
J
JACKETING, 255
JET SKI, 5 119 227
JEWELLERY, 115
JOINT, 216
JOINT VENTURE, 17 80 91 119
202 337
JUST-IN-TIME, 5
K
KAYAK, 1 15 39 41 50 87 114 334
364
KEEL, 41 50 114 340
KEVLAR, 154 245
KILN, 125
KINEMATIC, 274
KINETIC, 274 275 305
KINETIC ENERGY, 328
KNIFE, 28
KNITTED FABRIC, 363
KNITTING, 60
KNOB, 212
L
LABORATORY TEST, 274
LACQUER, 276
LADDER, 203 216
LAMINATE, 4 23 36 41 52 79 87
116 134 137 141 142 143 167
194 228 234 248 289 296 303
320 350 363 365
LAMINATING, 141 167
LAMINATION, 75 223 247 320
LANDFILL, 125 330
LARGE-COMPONENT, 68 114
167
LASER, 294
LATEX, 164 176 177 291
LATICES, 164 176 177 291
LAUNCH TUBE, 155
LAW, 114 298
LAWNMOWER, 332
LAY-UP, 141 167 320 335
LEAD TIME, 128 202
LEAKPROOF, 355
LEASING, 50
LEATHER, 68
LEGISLATION, 101 114 125 298
343
LEISURE APPLICATION, 5 40 62
66 93 108 122 166 168 203 209
214 226 230 285 296 308 332
341 379 392
LENGTH, 41 50 247 275 305 334
LENS, 87 115
LICENCE, 2 29 40 42 90 95 170
193 216 279 299 301 381
LIFE CYCLE ANALYSIS, 189
LIFE RAFT, 114
LIFE-JACKET, 26
LIFE-SAVING DEVICE, 26 114
LIFEBOAT, 41 50 88 247 320 340
LIFETIME PREDICTION, 258
LIGHT DEGRADATION, 154 273
LIGHT MICROSCOPY, 305
LIGHT REFLECTION, 49
LIGHT REFRACTION, 228
LIGHT RESISTANCE, 49 134 135
228 340
LIGHT STABILISER, 134 163 273
LIGHT STABILITY, 273
LIGHT TRANSMISSION, 284
LIGHTING APPLICATION, 122
LIGHTWEIGHT, 5 6 9 13 14 21 23
30 41 47 48 49 52 60 61 99 109
115 120 138 170 185 187 197
222 250 270 301 302 304 308
322 338 346 357 371 390 394
LINEAR LOW DENSITY
POLYETHYLENE, 339
LINING, 333 385
LINOLEUM, 275
LIQUID, 235
LIQUID ADDITIVE, 68
LIQUID CRYSTAL POLYMER,
113 375 379
LIQUID CURING MEDIUM, 273
LIQUID INJECTION
MOULDING, 64
LIQUID POLYMER, 34
LIQUID RESIN, 167
LIQUID RUBBER, 308
LITHOGRAPHY, 34
LIVING HINGE, 262
LOADBEARING, 73
LOADING, 79 142 143 254 274
275 276 296
LONG FIBRE, 165 167 231 253
342 375
LOOSE FILL, 208
LOSS, 301
LOST-CORE PROCESS, 96 171
LOW DENSITY, 13 115 135 155
325
LOW DENSITY
POLYETHYLENE, 13 87 171
302 334
LOW MODULUS, 88 320
LOW PRESSURE, 74 343
LOW SHRINKAGE, 319
LOW TEMPERATURE, 306
LOW TEMPERATURE CURING,
94
LOW TEMPERATURE
PROPERTIES, 15 28 32 33 102
120 135 146 153 154 166 187
244 252 261 262 273 276 324
325 341
LOW VISCOSITY, 88 141 319
LUBRICANT, 134 305
LUBRICATION, 305
LUBRICITY, 146
M
MACHINE, 1 39 68 80 94 129 138
143 167 169 203 216 229 247
251 260 273 276 280 283 319
324 364 376 377
MACHINERY, 1 39 40 46 68 80 94
129 131 138 143 167 169 202
203 216 229 244 247 251 260
273 276 280 283 319 324 333
334 343 359 364 366 376 377
MACHINING, 115
MAGNESIUM, 389 390
MAINTENANCE, 131
MALEIC ANHYDRIDE
COPOLYMER, 115
MANDREL, 128
MANGANESE BRONZE, 254
MANUFACTURE, 22 25 45 63 68
71 83 122 123 186 209 254 294
345 353 385 387 388 390
MANUFACTURER, 5 23 38 40 62
72 118 195 233 260 270 272
288 300 324
MANUFACTURING, 46 47 66 131
MARINE APPLICATION, 41 44
50 60 64 89 114 118 182 221
226 247 254 312 320 363 375
376
MARKET, 5 41 44 49 50 52 61 68
108 114 150 158 166 168 201
203 231 258 260 285 340 348
375 379 381 389
MARKET GROWTH, 30 41 44 49
50 62 114 166 175 182 195 241
MARKET RESEARCH, 211
MARKET SHARE, 17 42 44 50 66
80 82 91 94 105 122 171 174
184 193 195 205 210 227 237
© Copyright 2001 Rapra Technology Limited 103

Subject Index
238 240 241 244 284 291 314
316 318 357 366 374 389
MARKET TREND, 23 62 195 241
MARKETING, 184 258 377 381
MASK, 378
MAST, 11 109 142 320
MAT, 13 25 381
MATERIAL, 45 83 118 123 176
270
MATERIAL REPLACEMENT, 24
29 31 33 35 49 70 77 150 165
168 170 172 179 180 189 192
199 206 212 221 226 233 234
238 250 257 267 287 296 297
298 303 304 316 320 321 322
331 340 346 351 354 360 362
363 393
MATERIALS SELECTION, 35 61
72 118 141 179 180 209 221
222 265 268 269 270 274 307
319 321 363
MATERIALS SUBSTITUTION,
24 29 31 33 49 70 150 165 168
189 212 226 233 234 303 304
316 321 322 331 340 346 351
354 360 362 363 393
MATHEMATICAL MODEL, 11
142
MATRIX, 5 122 285
MATTING, 13 25
MATTRESS, 26 105
MDI, 33 42 162 218 273 289 306
307 324 330
MECHANICAL FASTENING, 102
134
MECHANICAL PART, 217 230
375 386 392
MECHANICAL RECYCLING,
101 230
MEDICAL APPLICATION, 26 52
164 234 365 372
MEDICAL EQUIPMENT, 86 294
MELT, 38
MELT FLOW, 244
MELT FLOW INDEX, 65 334
MELT FLOW RATE, 110 334
MELT TEMPERATURE, 65 212
255
MELTING, 55 325
MELTING POINT, 325
MELTS, 38
MEMBRANE, 102 120 134 153
223 228
MERGER, 58 91 166 340 380
MESH, 396
METAL, 18 38 41 88 270 350
METAL ADHESION, 88
METAL COATING, 94
METAL FIBRE, 64
METAL INSERT, 141 143 217 283
325
METAL REPLACEMENT, 12 39
143 171 188 197 204 217 237
243 262 266 308 309 320 333
337 343 354 397
METAL-REINFORCED, 377
METALLISED, 115 135
METALLISING, 343 377
METALLOCENE, 52 195 210 287
METERING, 283 344
METHACRYLATE POLYMER,
158
METHACRYLIC ESTER
POLYMER, 158
MICA, 274
MICROBEAD, 344
MICROBIAL DEGRADATION,
306
MICROCELLULAR, 69 324 326
MICRODEFORMATION, 142
MICROFIBRE, 228 232
MICROFILAMENT, 375
MICRONISATION, 230
MICROPOROUS, 228 365 375
MICROSPHERE, 186
MIGRATION, 134 276 340
MILITARY APPLICATION, 6 50
193 306 333 340
MILL, 37
MINE SWEEPER, 247
MINERAL FILLER, 276
MINERAL-REINFORCED, 204
MINESWEEPER, 247 320
MISSILE, 155
MIXER, 95
MIXING, 31 92 186 273 274 283
324 344 381
MODEL, 11 19 79 142 143 194
296 307
MODIFICATION, 72 187 276 336
MODIFIER, 13 20 148 154
MODULUS, 64 128 194 274 307
320 356 360
MOISTURE ABSORPTION, 36
204 248 284 325 394
MOISTURE CONTENT, 255 305
MOISTURE CURING, 88
MOISTURE RESISTANCE, 154
166
MOISTURE VAPOUR
TRANSMISSION, 120 153 228
394
MOLECULAR STRUCTURE, 20
120 153 204 305
MOLECULAR WEIGHT, 82 120
153 248 273 305 375
MONOCOQUE, 127 141 143 154
165 188 227 245 247 335 354
376 377
MONOLITHIC, 247
MOONEY-RIVLIN CONSTANT,
307
MORPHOLOGY, 148 276
MOTION, 275
MOTOR BOAT, 41 50 114 247 320
340 376
MOTOR CYCLE, 6 49 162 341
MOTOR CYCLE TYRE, 332
MOTOR SPORT APPLICATION,
27 117 354
MOULD, 40 68 143 167 203 229
247 273 285 292 319 324 335
359 376 377
MOULD CHANGING, 68 244
MOULD COOLING, 39
MOULD DESIGN, 12 39 255 361
377 381
MOULD FLOW, 276 361
MOULD HEATING, 39
MOULD MAKING, 202
MOULD RELEASE AGENT, 31
68 255 319
MOULD TEMPERATURE, 65 276
339
MOULDED, 21 386
MOULDING, 4 5 27 31 39 41 55
70 72 74 87 107 111 127 128
129 143 151 158 167 202 203
209 211 224 226 227 229 230
231 254 261 265 268 271 272
273 283 285 295 300 306 308
316 324 336 381
MOULDING COMPOUND, 5 135
MOULDING FAULT, 276
MOULDING PRESSURE, 273
MOULDMAKING, 202 319 327
335 366 377
MOUNTAIN BICYCLE, 47 87 88
109 127 216 217 319 386
MOUNTAINEERING, 120 153
379
MOUTHGUARD, 194
MULCH, 157
MULTIAXIAL, 60
MULTICAVITY MOULD, 366
MULTICOLOUR, 74 244 324
MULTICOMPONENT, 56 244
MULTIDENSITY, 74
MULTILAYER, 62 79 118 223 226
244
MULTIMATERIAL MOULDING,
166
MULTIPLY, 296 301
MULTISHOT MOULDING, 202
104 © Copyright 2001 Rapra Technology Limited

Subject Index
MULTISTATION, 68
MULTIFILAMENT, 232
N
NATURAL FIBRE, 228
NATURAL RUBBER, 149 164 192
231 239 246 273 274 291 324
328 340
NAVIGATION, 79
NEOPRENE, 14 41 50 87 132 173
229 274
NICKEL, 391
NICKEL ALUMINIUM BRONZE,
254
NODE, 142
NOISE REDUCTION, 52 133
NON-LINEAR, 142
NON-POROUS, 90
NON-SLIP, 330
NON-STICK, 154
NON-TYRE, 291
NORMAL FORCE, 275
NORMAL STRESS, 296
NORMALISING, 275
NOTCHED IMPACT STRENGTH,
284
NOZZLE, 40
NUCLEAR MAGNETIC
RESONANCE, 77 194
NUCLEATION, 204
O
O-RING, 386
ODOUR SUPPRESSION, 394
OFF-THE-ROAD VEHICLE, 332
OFFICE FURNITURE, 94 395
OFFSHORE APPLICATION, 312
320
OIL, 235 274 276
OIL EXTENDED, 274
OIL EXTENSION, 276
OIL MODIFIED, 274
OIL RECOVERY, 182 320
OIL RESISTANCE, 97 147 235
OIL RIG, 320
ONE-COMPONENT, 33 88 132
197 247 335
ONE-PART, 330
OPACITY, 24 68
OPEN-CELL, 296
OPTICAL APPLICATION, 115
269
OPTICAL FIBRE, 236
OPTICAL PROPERTIES, 41 49 50
68 87 102 114 115 134 135 217
228 248 273 325 377 378
OPTIMISATION, 79 307
ORIENTATION, 276
ORIENTED, 5
ORIGINAL EQUIPMENT, 91 195
239 337
OSMOSIS, 320
OUTBOARD MOTOR, 254
OUTDOOR APPLICATION, 249
274
OUTPUT, 1 73 105 112 227 245
280 291
OUTSOLE, 273 274 275
OVEN AGEING, 65
OVEN CURING, 128
OVERCAPACITY, 333
OVERFLOW CAVITY, 53
OVERLAY, 43
OVERMOULDING, 20 38 48 70
73 84 97 202 212 244
OXIDATION, 65 266
OXIDATIVE DEGRADATION, 65
266
P
PACKAGING, 52 86 115 163 204
210 217 228 230 236 281 294
304 314
PACKING, 386
PAD, 15 178 190
PADDING, 78
PADDLE, 39 308
PAINT, 343
PAINTABILITY, 284
PAINTING, 112 375
PALE CREPE, 291
PAN, 128 266
PANEL, 90 258
PARACHUTE, 379
PARAFFIN, 305
PARAFFIN WAX, 305
PART REMOVAL, 202
PART WEIGHT, 10 262 293 313
PARTICLE SIZE, 213
PARTNERSHIP, 17 80 91 119 202
337
PATENT, 23 43 73 151 152 216
223 253 260 279 293 343 352
PATTERN, 327
PEDAL, 41 50 87 217 319 323
PEEL STRENGTH, 88 147 371
PELLET, 177
PENTANEDIONE, 167
PERFLUOROALKANE, 305
PERFORMANCE, 5 38 46 47 52
83 118 122 123 149 215 295
307
PERFORMANCE TYRE, 140
PERFUME, 115
PERMEABILITY, 120 153 228
PERMEABLE, 330
PEROXIDE, 167 273
PEROXIDE VULCANISATION,
273
PERSONAL CARE PRODUCT,
212
PHENOLIC RESIN, 193 248
PHOTOCURING, 34
PHYSICAL PROPERTIES, 5 23
69 77 93 147 263 268 269 295
PICTURE FRAME, 90
PIEZOCHROMIC, 236
PIGMENT, 16 65 97 187 248 270
295 325
PILLAR, 119
PILLOW, 395
PIPE, 13 54 94 320
PLANNING, 160 258 323 348
PLANT, 5 62 131 135 203 229 288
295 377
PLANT CAPACITY, 135 230
PLANT CONSTRUCTION, 80 94
162 266 314
PLANT EXPANSION, 1 17 58 155
193 260 266 288
PLANT MODERNISATION, 129
377
PLANT RESTART, 266
PLANT SHUTDOWN, 131
PLANT START-UP, 17 128
PLASTICISED, 75 102
PLASTICISER, 97 134 189 295
340 393
PLASTICITY, 134
PLASTICS INDUSTRY, 379
PLASTISOL, 74 189
PLASTOMER, 210
PLATE, 73 81
PLATEN, 39 46 244 343
PLAYGROUND, 157 169 208 330
PLUG, 100
PLY ORIENTATION, 141
PNEUMATIC, 160
POLAR GROUP, 305
POLARISED LIGHT
MICROSCOPY, 305
POLARITY, 276 305
POLE, 161
POLE VAULTING, 161
POLISHING, 96 115
POLYACETAL, 17 28 61 73 80 82
87 97 146 154 166 187 217 249
308 358 375 397
POLYACRYLONITRILE, 128 266
POLYAMIDE, 14 48 53 66 73 82
84 87 97 115 135 146 147 150
© Copyright 2001 Rapra Technology Limited 105

Subject Index
166 171 176 187 191 195 212
217 222 228 231 244 248 256
261 264 268 270 278 292 293
305 308 329 340 341 357 359
366 367 377 379 397
POLYAMIDE ELASTOMER, 120
153
POLYAMIDE-12, 204
POLYAMIDE-6, 48 96 100 123
154 165 166 187 204 222 228
248 341
POLYAMIDE-6,6, 7 28 123 154
204 379
POLYBUTADIENE, 16 246 273
274 310 324
POLYBUTYLENE
TEREPHTHALATE, 187 228
248 292 303 379
POLYBUTYRATE, 308
POLYCAPROAMIDE, 123
POLYCAPROLACTAM, 123
POLYCAPROLACTONE, 81
POLYCARBONATE, 16 24 38 41
49 50 70 81 87 88 114 115 166
195 231 269 308 337 343 378
379
POLYCHLOROPRENE, 14 41 50
87 132 173 229 274 340 365
POLYDICYCLOPENTADIENE,
290
POLYEPICHLOROHYDRIN, 229
POLYEPOXIDE, 4 6 8 11 23 31 35
36 43 47 62 64 79 88 94 103
109 112 118 122 128 141 143
151 158 166 167 179 188 193
201 245 247 248 254 261 265
283 292 296
POLYESTER ELASTOMER, 87
120 153
POLYESTER POLYOL, 77 326
POLYETHER, 149
POLYETHER AMIDE, 81
POLYETHER ELASTOMER, 120
POLYETHER POLYOL, 273
POLYETHER-AMIDE BLOCK
COPOLYMER, 20 120 153 166
231 325
POLYETHERETHERKETONE, 16
POLYETHYLENE, 6 8 13 14 16
24 25 31 41 46 50 51 52 54 62
65 66 82 87 111 114 117 134
139 166 168 171 200 210 217
222 226 227 228 230 231 248
258 261 295 302 305 320 323
334 338 339 340 343 350 364
365 375 377 395
POLYETHYLENE
NAPHTHALATE, 257 360
POLYETHYLENE
TEREPHTHALATE, 70 87 107
134 228 292 308 397
POLYFLUOROETHYLENE, 87
149 153
POLYIMIDE, 113
POLYIONENE, 166
POLYISOPRENE, 16 324
POLYMERIC FILLER, 177
POLYMERIC IMPACT
MODIFIER, 135
POLYMERIC MODIFIER, 20
POLYMERISATION, 52 204
POLYMERISATION CATALYST,
287
POLYMETHACRYLATE, 158
POLYMETHACRYLIMIDE, 248
POLYMETHYL
METHACRYLATE, 231 305
POLYOL, 219 273 307 324 330
374
POLYOLEFIN, 52 119 135 138
166 195 210 223 228 248 287
POLYOLEFIN ELASTOMER, 13
15 81 178 210 261
POLYPHENYLENE SULFIDE, 9
POLYPHTHALAMIDE, 308
POLYPROPYLENE, 8 24 31 40 41
46 52 53 55 56 57 81 84 110
134 166 168 171 176 187 191
195 203 223 230 231 232 244
259 264 268 295 302 304 320
336 361 367 375 379 395
POLYSTYRENE, 4 16 27 31 87 98
168 170 171 202 276 281 294
302 320 343 375 380
POLYTETRAFLUOROETHYLENE,
87 149 153 228 305 386
POLYTETRAMETHYLENE
ETHER GLYCOL, 273
POLYTETRAMETHYLENE
GLYCOL ETHER, 273
POLYURETHANE, 2 4 7 8 24 25
31 32 33 34 36 41 52 59 62 66
67 68 70 75 76 77 81 82 84 87
88 93 95 97 101 104 105 106
107 114 120 124 128 129 132
135 137 144 149 153 160 162
166 186 190 192 196 199 205
209 211 215 218 219 220 222
224 225 227 228 231 233 235
237 238 239 244 246 248 255
261 262 263 273 275 276 284
288 289 292 303 306 309 313
320 324 325 326 327 328 329
333 340 344 348 351 355 372
374 375 377 384 393 395
POLYURETHANE ELASTOMER,
68 69 87 88 120 138 153 224
225 228 234 248 261 273 275
307 324 326
POLYVINYL CHLORIDE, 4 24
25 38 41 50 52 62 75 79 81 102
107 114 118 132 134 135 167
168 189 217 220 230 261 294
295 298 300 320 324 340 369
376 379
POLYVINYLBENZENE, 4 27 171
302
POLYVINYLESTER, 87 122 158
167 320 333 362
POROSITY, 79 152 228 320 372
POROUS, 228
POST CURING, 141
POST-CONSUMER, 101 334
POST-INDUSTRIAL, 101 330
POUR-IN-PLACE, 208 384
POURING, 31
POWDER, 24 177 216 373
POWDER COATING, 12 94 181
POWER TOOL, 212
POWER TRANSMISSION BELT,
252
PRE-IMPREGNATED, 165
PRE-STRESS, 64
PRECISION MOULDING, 271
PRECURSOR, 266
PREFORM, 55 128 181 359 367
376 377
PREFORMING, 222
PREPOLYMER, 33 75 218 306
324 330 374
PREPREG, 10 23 30 82 127 128
141 143 180 181 193 200 222
248 265 293 301 319 320 333
335 356 357 367 376 377
PRESS, 292
PRESS MOULDING, 320
PRESSURE, 5 29 74 150 275 305
340 350
PRESSURE BAG MOULD, 335
PRESSURE DEPENDENCE, 275
PRESSURE DISTRIBUTION, 377
PRESSURE DROP, 53
PRESSURE FORMING, 31 170
294
PRESSURE RESISTANCE, 6
PRESSURE VESSEL, 155 333
PRESSURELESS, 310
PRESSURISED, 107
PRICE, 3 5 7 17 30 31 46 52 61 80
94 111 123 128 129 130 151
153 160 168 190 193 207 262
266 299 303 313 333 334 343
359 366
PRIMER, 94
106 © Copyright 2001 Rapra Technology Limited

Subject Index
PRINTABILITY, 120
PRINTED CIRCUIT BOARD, 156
193 294
PRINTING, 115 153 186 231 292
377
PROCESS, 5 20 23 46 49 71 149
177 178 180 218 226 229 255
260 270 276 336
PROCESSABILITY, 13 20 38 49
96 210 212 244 261 306
PROCESSING, 5 20 23 46 49 71
149 177 178 180 218 226 229
255 260 270 276 320 324 336
340 375 385
PROCESSING AID, 20
PRODUCT DESIGN, 21 22 68 79
141 143 207 217 255 275 313
319 340 378
PRODUCT DEVELOPMENT, 6 8
42 74 119 156 190 202 204 207
246 323 378
PRODUCTION, 5 29 30 40 41 44
46 49 50 61 62 68 101 114 131
150 158 182 193 228 233 285
291 301 324 340 356 379 381
PRODUCTION CAPACITY, 17 80
91 94 115 128 135 144 155 156
193 230 266 316 324 377
PRODUCTION CELL, 68 366
PRODUCTION COST, 141 143
165 193 230 303 313 319 367
PRODUCTION LINE, 133
PRODUCTION RATE, 7 110 115
128 129 227 339 366
PRODUCTIVITY, 68 71 91 127
PROFILE, 142
PROFIT, 122 171 203 230 356 377
380
PROFITABILITY, 91
PROPELLER, 254
PROPELLER BLADE, 254
PROPERTY RETENTION, 120
PROPHYLACTIC, 26
PROPORTIONAL VALVE, 294
PROTECTIVE CLOTHING, 6 194
228
PROTECTIVE PACKAGING, 304
PROTEIN, 394
PROTOTYPE, 71 141 190 201 205
207 229 247 262 264 265 274
319 321 377 378
PULTRUSION, 216 248 251 303
333
PULVERISATION, 213
PUMP, 5 17 46 167 217
PUNCTURE RESISTANCE, 6 134
199 338
PURCHASE, 51 58 288
PYROLYSIS, 125
Q
QUALITY, 60 118 131 209 232
285 369 378 379
QUALITY ASSURANCE, 92 135
222 229 295
QUALITY CONTROL, 23 92 135
222 229 247 251 265 295 310
343 366 377 378 395
QUICK MOULD CHANGING, 68
244
R
R-GLASS, 320
RACING BICYCLE, 23 83 143
165 188
RACING BOAT, 79 129 376
RACING CAR, 206 390
RACING TYRE, 136 184
RACKET, 35 36 82 120 153 168
187 222 301 311 375 379
RADAR, 320
RADIO, 122
RADIO FREQUENCY
INTERFERENCE, 343 391
RADIO FREQUENCY WELD, 84
RAFT, 41 114 340
RAIN, 382
RAPID COOLING, 65
RAPID PROTOTYPING, 205 207
264 327
RAW MATERIAL, 149 156 189
195 284 300
RAZOR, 84
REACTION INJECTION
MOULDING, 32 67 70 101 105
205 248 261 290
REACTIVE ADHESIVE, 132
REACTIVITY, 167
REACTOR, 31
REBAR, 216
REBONDING, 289
REBOUND, 296
RECIPROCATING SCREW, 276
RECLAIM, 37 55 76 85 92 139
153 168 172 192 213 228 230
276 286 289 299 318 352 381
RECLAIMED RUBBER, 92 177
276
RECLAIMING, 101
RECOVERY, 101
RECREATIONAL APPLICATION,
330 368 384
RECYCLABILITY, 165 189 212
304 324
RECYCLATE, 139
RECYCLED, 139 383
RECYCLED CONTENT, 152 190
260 276 334
RECYCLING, 37 55 75 76 85 97
101 120 131 139 152 153 157
165 168 169 177 189 190 192
203 208 212 213 228 230 233
260 286 288 289 299 304 318
324 330 334 352 368 373 374
377 381 383 384 394
REFRACTION, 228
REFURBISH, 239
REFUSE CONTAINER, 139
REGRESSION ANALYSIS, 275
REGRIND, 276
REGULATION, 31
REINFORCED CONCRETE, 64
REINFORCED RUBBER, 87 251
REINFORCED
THERMOPLASTIC, 9 39 55
87 109 156 166 217 231 259
267 277 278 292 313 342 359
375 379
REINFORCEMENT, 60 216 320
RELATIVE HUMIDITY, 305
RELEASE AGENT, 31 68 255
RELIABILITY, 258
REMOULDING, 125
REMOVABLE, 22
RENOVATION, 102
REPAIR, 45 239
REPAIRING, 227
REPEATABILITY, 5
REPLACEMENT, 176
REPLACEMENT TYRE, 91
REPROCESSING, 276
REPRODUCIBILITY, 296
RESEARCH, 68 69 74 123 168
226 236 260 377 378 381 393
RESIDUAL STRESS, 65
RESILIENCE, 97 145 224 225 304
307 384
RESIN, 61
RESIN INFUSION, 60 167
RESIN TRANSFER MOULDING,
5 127 128 129 227 231 254 265
283 285 333
RESISTIVITY, 64
RESTRUCTURING, 166
RETRACTABLE CORE, 53
RETREADING, 125 136
RETROFIT, 28 260
REVIEW, 51 57 64 70 89 101 106
133 138 139 145 216 302 308
329 332 353 357 374 386 387
RHEOLOGICAL PROPERTIES,
12 88 141 149 154 167 218 269
© Copyright 2001 Rapra Technology Limited 107

Subject Index
276 305 319 325
RHEOLOGY, 12 88 141 167 276
305
RIB, 276
RIGID, 29 38 40 50 72 75 96 101
114 212 374 376
RIGIDITY, 31 32 48 73 185 322
331 339 340 341 343 375 376
RIPPLE, 133
ROAD, 286 335
ROAD SURFACE, 169
ROADHOLDING, 133
ROBOT, 5 150 202 337 366 395
ROCK, 274
ROLL, 128
ROLLER, 155 291
ROLLER SKATE, 70 73 82 87 135
153 166 197 234 248 261 284
311 329
ROLLING RESISTANCE, 87 91
199
ROOF, 102 134
ROOFING, 24 40 260
ROOM TEMPERATURE
CURING, 167
ROTARY MACHINE, 68 324
ROTATING TABLE, 202 244
ROTATION, 275
ROTATIONAL MOULD, 375
ROTATIONAL MOULDING, 27
31 41 70 87 111 203 226 227
230 300 323 334 339 364
ROUGHNESS, 305
ROUTER, 303
RUBBER INDUSTRY, 291
RUBBER-MODIFIED, 87 135
RUBBER-TOUGHENED, 87 135
RUBBERISED ASPHALT, 169
368 373
RUBBERISED FABRIC, 340
RUBBERY, 202
RUBBING, 305
RUCKSACK, 28
RUDDER, 109
RUN-FLAT TYRE, 91
RUNNER, 255
RUNNING SHOE, 48 81 273 275
RUNNING TRACK, 328 330
S
S-GLASS, 320
SADDLE, 217
SAFETY, 18 43 45 75 95 114 117
123 131 209 245 260 268 296
300 308 335 345 369
SAFETY APPLICATION, 330
SAFETY FOOTWEAR, 138 229
306 324
SAFETY GLASS, 234
SAFETY GUARD, 308
SAFETY HELMET, 49 256 304
345 380
SAGGING, 334
SAIL, 41 79 200 261 375
SAILBOARD, 41 44 375 379
SAILCLOTH, 257 360
SAILING BOAT, 41 44 50 109 114
247 320 375 376 379
SALT SPRAY RESISTANCE, 247
SANDAL, 274 306 324
SANDWICH, 45 118 209
SANDWICH STRUCTURE, 4 79
129 167 227 231 247 296 315
320 376 377 379
SATELLITE, 193
SATURATED POLYESTER, 2 14
41 48 72 102 114 146 149 168
200 228 305 340 375 394
SCALING, 262
SCANNING ELECTRON
MICROSCOPY, 113 267
SCOOTER, 49
SCRAP, 120 139 152 153 157 167
168 190 203 208 230 260 276
288 324 377
SCRAP POLYMER, 37 85 131 139
192 196 286 299 334 394
SCRAP RUBBER, 139 208
SCRAP TYRES, 37 85 125 152
157 169 190 192 196 208 213
260 279 288 299 318 330 352
368 373 381 382 383 384
SCRATCH RESISTANCE, 49 115
135 248
SCREEN PRINTING, 292
SCREW, 276
SCREW CAP, 217
SCUFF RESISTANCE, 137
SEAL, 38 291 300 386
SEALANT, 75 88 374
SEALING, 386
SEAMLESS, 300
SEAT, 15 53 65 116 134 162 201
289 294 372 395
SEATING, 24 46 53 66 78 365
SECURITY DEVICE, 342
SEEMANN COMPOSITES
RESIN INFUSION
MOULDING PROCESS, 167
SEGMENT LENGTH, 120
SEISMOLOGY, 243
SELF-ASSEMBLY, 83
SELF-CLEANING, 68
SELF-DRYING, 230 276
SELF-LUBRICATING, 126
SELF-SKINNING, 304
SEMI-AROMATIC, 204
SEMI-AUTOMATIC, 247
SEMI-RIGID, 75 340
SENSITIVITY, 135
SENSOR, 107 236
SEQUENTIAL COPOLYMER,
120 153
SERVICE LIFE, 93 134 163 178
190 209 213 258 284 296 325
SERVICE PROPERTIES, 341
SHAFT, 293 344 357 391
SHAPE, 71 186 201
SHAPE-MEMORY, 236
SHEAR, 275 296 305
SHEAR FORCE, 275 305
SHEAR MODULUS, 79 296
SHEAR PROPERTIES, 88 96 183
275 305
SHEAR STRENGTH, 88 96 333
371
SHEAR STRESS, 88
SHEET, 24 49 62 72 102 115 134
234 334 340 359 369 381 384
SHEET MOULDING
COMPOUND, 5 119 156 227
313
SHELF LIFE, 367
SHELL, 127 166 342
SHELTER, 333
SHIP, 247 320
SHIPMENT, 86 291
SHOCK ABSORBER, 35 78 123
127 181 296
SHOCK ABSORPTION, 23 25 160
190 202 206 286 302 328 347
SHOCK RESISTANCE, 123
SHOE, 48 68 73 81 87 120 135 153
166 168 229 231 248 262 273
274 275 276 306 324 325 378
379
SHOE LINING, 385
SHOE SOLE, 15 59 69 81 96 138
306
SHOE UPPER, 81
SHORT FIBRE, 320
SHORT PRODUCTION RUN, 68
343
SHORT SHOT, 53
SHOT SIZE, 343
SHOT WEIGHT, 202 244
SHOWER TRAY, 129
SHREDDED, 169
SHREDDER, 169
SHREDDING, 213 288 368 373
381
SHRINKAGE, 29 167 245 270 319
334
108 © Copyright 2001 Rapra Technology Limited

Subject Index
SHUTTLE PRESS, 39
SHUTTLECOCK, 366
SILANE, 52
SILICON DIOXIDE, 246 273 274
SILICONE ELASTOMER, 173
308 327 386
SILICONE RUBBER, 173 308 327
386
SIMULATION, 71 79 142 143 296
SINGLE-COMPONENT, 33 88
132 197 247
SINK MARK, 29 40
SINTERING, 166 248 305
SINUSOIDAL, 296
SIZE, 61 66 346
SIZING, 155
SKATEBOARD, 303
SKATES, 87 120 135 160 166 171
224 248 307 317 329
SKI, 8 82 87 88 93 120 153 154
166 168 171 231 233 248 249
261 305 311 341 347 348 350
367 375 377 379
SKI BINDING, 8 82 87 146 154
166 168 231 249 379
SKI BOOT, 8 81 82 93 120 135
153 154 166 168 231 233 234
244 248 249 284 347
SKI GLOVE, 235
SKI GOGGLES, 211 327
SKI POLE, 8 248 333 379
SKI SHOE, 120 153 166 248
SKIING APPLICATION, 153 231
SKIN, 50 79 97 186 296 320
SKIN-CONTACT, 228
SLABSTOCK, 372
SLEDGE, 28 88
SLIDING, 28 275 296 305
SLIP, 145 275
SLIP RESISTANCE, 145 274 275
276 324
SLIPPERS, 324
SLUSH MOULDING, 385
SMART MATERIAL, 236
SMOKE GENERATION, 16
SMOKED SHEET, 291
SMOOTHNESS, 276 305
SNAP-FIT, 38 294
SNOW SHOE, 67 70 187 205
SNOW TRACTION, 305
SNOWBOARD, 7 8 15 28 82 87
106 120 146 153 154 166 231
233 250 261 262 292 348
SNOWMOBILE, 32 128 252 259
SOFT SEGMENT, 120 144 153
228 325
SOFT-TOUCH, 38 84 212
SOFTENING, 276
SOFTENING POINT, 325
SOFTNESS, 15 70 195 353
SOFTWARE, 11 12 24 40 45 54 71
131 151 201 207 295
SOIL, 382
SOIL BURIAL, 134
SOIL REINFORCEMENT, 169
368 373 383
SOIL STABILISATION, 368
SOIL TREATMENT, 279
SOLAR ENERGY
APPLICATION, 34
SOLE, 8 15 59 68 69 76 81 93 96
99 120 124 138 153 225 229
231 263 273 274 275 276 324
325 326 385
SOLID TYRE, 307
SOLIDS CONTENT, 94
SOLVENT, 31
SOLVENT RESISTANCE, 324
SOLVENT-FREE, 33
SOLVENTLESS, 132 330 357 384
SONAR APPLICATION, 320
SONAR TRANSPARENCY, 247
SOUND ATTENUATION, 6
SOUND INSULATION, 139
SPA, 15
SPECIFIC GRAVITY, 261 312
SPECIFIC HEAT, 305
SPECIFIC SURFACE, 177
SPECIFICATION, 214 295 335
SPECTACLE FRAME, 115 269
SPECTACLES, 49 115
SPECTROSCOPY, 194
SPEED, 201
SPHERE, 186
SPIKE, 237 309
SPINNING, 228 232
SPOILER, 292
SPORTS CAR, 3 112 126 133 140
193 245 282 379
SPORTS SHOE, 48 59 68 69 74 77
81 87 92 96 120 124 130 132
135 138 153 166 168 190 215
225 229 231 246 248 273 274
275 276 291 306 324 325 358
378 379 385
SPORTS STADIUM, 53 65 102
103 134 338 355 379 395
SPORTS SURFACE, 24 25 33 37
54 57 85 91 125 139 145 152
157 172 176 177 190 192 196
208 219 275 279 286 288 296
299 318 328 330 343 352 361
368 369 373 375 378 379 382
383 384 396
SPORTSWEAR, 87 115 116 120
153 228 231 232 347 365 375
394
SPRAY DRYING, 230 276
SPRAY-UP, 129 320
SPRAYING, 5 33 94 343 384
SPRING, 127
STABILISER, 134 163 189 273
STABILITY, 13 34 55 116 120 140
204 244 249 276
STACKING SEQUENCE, 79 141
STAINING, 274
STAINLESS STEEL, 83 131 350
STANDARD, 49 123 192 214 295
378
STANDARDISATION, 378
STAPLER, 84
STATIC DISSIPATION, 294
STATIC ELECTRICITY, 305
STATIC FRICTION
COEFFICIENT, 274 275 305
STATISTICS, 17 30 41 44 49 50 52
53 60 68 80 82 86 91 94 101
105 114 118 121 128 130 156
166 168 169 171 173 175 193
210 228 231 233 234 239 241
260 266 279 284 285 291 312
316 324 329 340 357 375 379
389
STEEL, 29 83 88 131 142 143 247
389
STEERING GEAR, 128
STEERING WHEEL, 109
STEP AEROBICS, 337
STEREOLITHOGRAPHY, 34 327
STERILISATION, 120
STIFFNESS, 7 23 38 47 48 55 72
73 79 88 96 109 119 135 141
142 143 146 151 154 155 161
165 166 167 204 254 261 265
266 273 276 284 296 319 320
343
STORAGE, 33 203
STORAGE STABILITY, 33
STRAIN, 142 296 335
STRAIN ENERGY, 296
STRAIN RATE, 194
STRENGTH, 19 42 53 55 109 146
155 187 200 227 254 262 266
267 302 306 308 312 342 343
350 370
STRESS, 65 79 88 141 142 143
151 177 296 307 319 325 343
STRESS ANALYSIS, 161 179 335
STRESS CONCENTRATION, 88
STRESS CRACK RESISTANCE,
28
STRESS DISTRIBUTION, 88 142
194
STRESS RELAXATION, 19
© Copyright 2001 Rapra Technology Limited 109

Subject Index
STRESS TRANSFER, 141
STRESS-STRAIN PROPERTIES,
306 307 335
STRETCH BLOW MOULDING,
107
STRETCH PROPERTIES, 144
STRUCTURAL ANALYSIS, 79
296 319
STRUCTURAL FOAM, 261 303
343
STRUCTURAL PART, 109 333
STRUCTURE-PROPERTY
RELATIONSHIP, 120
STUD, 81 358
STYRENE, 167
STYRENE EMISSION, 167
STYRENE-BUTADIENE
COPOLYMER, 192 273 274
275 324 385
STYRENE-BUTADIENE-
STYRENE BLOCK
COPOLYMER, 120 135 153
248 276 324
STYRENE-ETHYLENE
BUTYLENE-STYRENE
BLOCK COPOLYMER, 120
135 153 187 248
STYRENE-ISOPRENE-
STYRENE BLOCK
COPOLYMER, 120 153
STYRENE-MALEIC
ANHYDRIDE COPOLYMER,
115
SUBLIMATION, 115 166 231 359
377
SUBLIMATION TRANSFER, 248
SUBMARINE, 320
SUBSIDIARY, 271 340
SUBSTRATE, 38 195
SUITCASE, 359
SULFUR, 273
SULFUR VULCANISATION, 273
SUNGLASSES, 49 115 168
SUNROOF, 119
SUPERSTRUCTURE, 320
SUPPLIER, 5 24 29 40 46 66 72
201 295 300 337
SUPPLY, 121 266
SURF SAILING, 375
SURFACE, 29 46 62 209 260 270
SURFACE AREA, 275 305
SURFACE ENERGY, 305
SURFACE FINISH, 28 96 141 222
242 262 294 319 361
SURFACE PREPARATION, 229
SURFACE PROPERTIES, 276 305
SURFACE RESISTIVITY, 325
SURFACE TREATMENT, 49 90
97 115 120 153 166 229 231
248 276 359 375 377
SURFBOARD, 4 31 42 62 67 70
95 104 170 231 302
SUSPENSION, 127 128
SWIMMING POOL, 111 203 230
295
SWIMWEAR, 21 228
SYNTACTIC, 186
SYNTHESIS, 69
SYNTHETIC FIBRE, 144 152 228
232
SYNTHETIC FIBRE-
REINFORCED PLASTIC, 43
122 181 182 200 231 247 248
320 321 322 357 362 376 379
SYNTHETIC FIBRE-
REINFORCED RUBBER, 87
251
SYNTHETIC GRASS, 275
SYNTHETIC ICE, 258
SYNTHETIC LEATHER, 68
SYNTHETIC RESIN, 185
SYNTHETIC RUBBER, 75 123
138 149 218 223 272
T
T-JOINT, 216
TABLE, 89
TACK, 97 276
TACTILITY, 38
TAN DELTA, 120 153 274 307
TANK, 50 266 320
TAPE, 165 301
TAPE WINDING, 6 128 143 155
165 216 251
TARGET, 150
TEAR RESISTANCE, 307
TEAR STRENGTH, 77 102 200
210 225 228 273 274 306 324
325 340 375
TECHNOLOGY TRANSFER, 95
299
TEMPERATURE, 83 120 141 153
167 218 266 270 276 305
TEMPERATURE CONTROL, 116
283 294
TEMPERATURE
DISTRIBUTION, 54
TEMPERATURE RANGE, 6 14
284
TEMPERATURE RESISTANCE,
126 171
TEMPERATURE SENSITIVITY,
135 394
TENACITY, 322
TENDER, 334
TENNIS, 273 375 378 379
TENNIS BALL, 91 174 310 353
387
TENNIS COURT, 176 375
TENNIS RACKET, 35 36 82 120
153 187 222 301 333 346 367
375 391
TENSILE PROPERTIES, 11 13 55
64 88 113 119 137 143 154 155
210 215 223 225 249 268 269
274 276 307
TENSILE STRENGTH, 11 13 64
88 119 137 143 154 155 210
215 223 225 249 268 269 274
306 307 312 319 320 333 360
TENSION, 251
TENT, 261
TEST, 22 40 49 71 79 120 135 141
142 153 186 194 229 252 254
273 274 275 276 295 296 335
340 377 378
TEST EQUIPMENT, 194 275
TEST METHOD, 5 20 27 29 45 59
61 66 133 140 205 226 260 275
378
TEST SPECIMEN, 194
TEXTILE, 134 228
TEXTILE APPLICATION, 181
223 232 374
TEXTILE INDUSTRY, 228
TEXTILE-REINFORCED, 367
TEXTURED, 294
TEXTURED COATING, 94
THEORY, 11 64 75 89 98 142 145
159 194 307 335 355
THERMAL CONDUCTIVITY, 54
64 155 223 270 304 305 325
THERMAL DEGRADATION, 56
147
THERMAL EXPANSION, 155 209
THERMAL EXPANSION
COEFFICIENT, 284
THERMAL HISTORY, 334
THERMAL INSULATION, 24 101
135 228 247 324 347 355 365
374 394
THERMAL MICROSCOPY, 305
THERMAL PROPERTIES, 39 120
153 273 305 324 325
THERMAL STABILITY, 6 16 33
34 55 64 88 112 115 122 132
134 276 340 376
THERMOFORMABLE, 365
THERMOFORMING, 1 49 87 226
231 292 294 334 359 366 375
THERMOGRAPHY, 358
THERMOPLASTIC
ELASTOMER, 20 21 38 48 56
110 © Copyright 2001 Rapra Technology Limited

Subject Index
67 68 70 82 84 87 93 96 115
120 135 146 147 153 154 166
178 187 191 195 204 212 231
239 248 255 268 275 276 284
287 324 325 379
THIAZOLE, 273
THICKNESS, 41 49 79 84 88 94
100 102 105 117 134 135 190
247 273 284 294 296 305 319
334 339
THIN GAUGE, 338
THIN-WALL, 135 294
THREE-DIMENSIONAL, 216 264
319
THREE-LAYER, 134
THROUGHPUT, 343
TIEBAR, 202 244
TILE, 343 361 381
TITANIUM, 142 143 174 346 389
TOGGLE, 244
TOLERANCE, 78 100 128 294
TOLUENE DIISOCYANATE, 149
162 273 307 324
TOOLING, 5 23 29 38 66 74 112
124 128 129 212 227 245 260
262 335 343 359
TOOLS, 56
TOOTHBRUSH, 195
TOP DRESSING, 279
TORSION, 319
TORSIONAL MODULUS, 20 120
153
TORSIONAL PROPERTIES, 265
TORSIONAL STIFFNESS, 7 88
166
TOUCH, 228
TOUGHNESS, 14 73 96 146 187
215 341 367
TOW, 128
TOWPREG, 181 367
TOYS, 13 71 86 168 220
TRACKING RESISTANCE, 341
TRACTION, 87 140 160 246 273
274 275 305 329
TRADE, 86
TRADE BALANCE, 41 228
TRADE DEFICIT, 86
TRADE SURPLUS, 86
TRAFFIC CONE, 381
TRAILER TYRE, 332
TRAINING, 92 131 168 179 229
260
TRANSDUCER, 109
TRANSFER MOULDING, 5 158
216 229
TRANSLATIONAL MOTION, 275
TRANSLUCENCY, 273
TRANSMISSION ELECTRON
MICROSCOPY, 113 267
TRANSPARENCY, 115 135 247
248 273
TRANSPARENT, 2 41 50 114 138
234 377 378
TRANSPORT APPLICATION, 49
64 89 143 155 182 290 359
TRANSPORTATION, 101
TREAD, 87
TREAD PATTERN, 133 140 274
TREND, 246 385
TRIBLOCK COPOLYMER, 120
135 153 248 276
TRIMMING, 294
TROUBLESHOOTING, 361
TRUCK, 119 294
TRUCK TYRE, 136
TUBE, 53 142 165 217 248 283
319 333
TUBULAR, 41 114 143 301
TUNGSTEN, 108
TURBINE, 60
TURNKEY SYSTEM, 232
TURNOVER, 41 44 50 68 91 92
105 114 115 122 134 135 166
168 203 229 230 231 233 272
340 343 377 397
TURNTABLE, 202
TWIN SHEET FORMING, 294
TWO-COMPONENT, 68 88 351
371
TWO-LAYER, 328
TWO-SHOT, 84 212
TYRE, 85 87 91 92 125 133 136
140 152 157 160 169 177 184
190 199 208 213 217 229 246
260 282 288 291 318 330 332
352 368 379 381 383 384
TYRE CARCASS, 87 136
TYRE CHIP, 169
TYRE CORD, 251
TYRE DERIVED FUEL, 125 169
368 373
TYRE FITTING, 133
TYRE INFLATION, 217
TYRE SHOULDER, 133
U
ULTRA HIGH MOLECULAR
WEIGHT, 82
ULTRAVIOLET CURING, 34
ULTRAVIOLET IRRADIATION,
72
ULTRAVIOLET RESISTANCE, 42
49 53 74 110 135 200 257 284
ULTRAVIOLET STABILISED,
111
ULTRAVIOLET STABILISER,
134 273
ULTRAVIOLET STABILITY, 154
UNDERCUT, 273
UNDERGROUND, 134
UNDERGROUND PIPE, 54
UNDERLAY, 291
UNIDIRECTIONAL, 79 142 143
165 301
UNSATURATED POLYESTER, 6
31 35 41 50 72 87 88 94 104
112 122 149 156 158 167 227
245 247 261 313 319 320 322
339 376
UPHOLSTERY, 144 395
V
V-BELT, 252
VACUUM, 167
VACUUM BAG, 141 167
VACUUM BAG MOULDING, 151
320
VACUUM CURING, 141 167
VACUUM FORMING, 1 29 31 40
222 294
VACUUM IMPREGNATION, 167
VACUUM MOULD, 376
VACUUM PUMP, 167
VACUUM-ASSISTED RESIN
INJECTION, 245
VACUUM-ASSISTED
TRANSFER MOULDING, 216
VALIDATION, 142
VALVE, 217 294
VALVE COVER, 217
VAPOUR PERMEABILITY, 120
153 234
VASE, 90
VEHICLE, 29 40 49 87 118
VEHICLE BONNET, 112
VEHICLE BOOT, 112
VEHICLE CHASSIS, 245
VEHICLE DOOR, 112
VEHICLE SEAT, 116 162 289
VEHICLE SHELL, 63 179 182 206
315 321 322 331 351 354 363
VEHICLE SPOILER, 292
VEHICLE SUN ROOF, 119
VEHICLE SUSPENSION, 128
VEHICLE TRIM, 162
VEHICLE WINDOW, 49
VELOCITY, 107 275 305
VENEER, 97
VENTILATOR, 320
VERTICAL, 274 275
VERTICAL MACHINE, 68
VIBRATION, 9 296 319 335
© Copyright 2001 Rapra Technology Limited 111

Subject Index
VIBRATION DAMPER, 35 181
296
VIBRATION DAMPING, 36 38 52
59 84 88 141 155 261 283 333
377
VIBRATION INSULATION, 229
377
VIBRATION RESISTANCE, 185
VICAT SOFTENING POINT, 325
VINYL ESTER RESIN, 87 122
158 167 320
VISCOELASTIC PROPERTIES,
19 88 271 274 293 296 372 377
VISCOSITY, 88 141 149 154 218
269 305 319 325 326
VISCOUS FLUID COUPLING,
305
VISOR, 49 308 378
VOID, 167
VOID CONTENT, 167
VOLATILE ORGANIC
COMPOUND, 167 216
VOLATILITY, 167
VOLUME, 29 62
VOLUME FRACTION, 79 194
VULCANISATION, 273 274 310
314 324 340 385
VULCANISATION TIME, 292
W
WALKING TRACTION, 275
WALL THICKNESS, 52 53 204
255 293 300 319
WARPAGE, 65 334 361
WARRANTY, 128
WASHING, 203 230
WASTE, 120 153 167 168 177 203
228 230 324 377
WASTE COLLECTION, 101 169
230
WASTE DISPOSAL, 37 125 213
289 330
WASTE MANAGEMENT, 125
WASTE RECOVERY, 101
WASTE REDUCTION, 96
WASTE RUBBER POWDER, 177
WASTE TREATMENT, 230
WATER, 305 324 382
WATER ABSORPTION, 304 375
WATER BLOWN, 306 344
WATER CONTENT, 305
WATER INSULATION, 102 134
WATER PERMEABILITY, 120
153 228
WATER REPELLENT, 114 137
228 305
WATER RESISTANCE, 14 228
273 320
WATER RETENTION, 382
WATER SKI, 67 70
WATER SPORTS, 70
WATER TANK, 50
WATER VAPOUR
PERMEABILITY, 120 153 234
WATER VAPOUR
TRANSMISSION, 365
WATER-BASED, 132 343
WATERPROOF, 202 228
WATERPROOFING, 102
WAX, 248 305
WEAR, 252 273 276
WEAR RESISTANCE, 14 33 49 50
73 74 88 120 135 137 149 153
166 215 217 223 228 244 252
273 274 276 279 284 384
WEATHER RESISTANCE, 13 14
15 74 122 134 217 247 248 328
340 374
WEAVE STRUCTURE, 359
WEIGHT, 41 50 70 83 97 100 110
134 141 143 217 227 260 319
333 375
WEIGHT LOSS, 276
WEIGHT REDUCTION, 23 47 87
91 114 120 126 127 128 135
143 151 153 165 166 167 170
178 179 217 227 243 245 248
250 266 284 285 319 320 322
331 339 343 354 360 362 363
375 397
WELD, 84 340
WELD STRENGTH, 13
WELDABILITY, 134
WELDING, 38 134 283
WELLINGTON BOOT, 306 324
WET LAY-UP, 7 141
WET SUIT, 365
WET TRACTION, 87 273 274 275
WET WEATHER TYRE, 133
WETTABILITY, 141 305
WETTING, 88 305
WHEEL, 30 61 78 87 96 135 150
166 218 224 248 284 303 307
329 390
WHEELCHAIR, 199
WHITE FILLER, 274
WIND, 109
WIND RESISTANCE, 6 228
WIND TURBINE, 60
WINDING, 159 293
WINDMILL, 193 333
WINDOW, 38 261
WINDSCREEN, 49
WINTER SPORT, 7 8 87 120 153
166 171 231 233 235 248
WIRE COATING, 33
WOOD, 18 94 166 167 231 275
292 296 303 305 350
WOOD ADHESIVE, 83
WOOD REPLACEMENT, 221 296
320
WOUND HEALING, 116
WOVEN, 5
WRAPPING, 128 333
X
X-RAY, 294
X-RAY DIFFRACTION, 77
X-RAY SCATTERING, 77
Y
YACHT, 41 44 50 114 167 247 320
YARN, 223
YELLOWING, 325
YELLOWING RESISTANCE, 42
YOUNG’S MODULUS, 11 64 79
88 135 141 248 296 319
Z
ZINC DIACRYLATE, 148
112 © Copyright 2001 Rapra Technology Limited