Issue 02/2016
bioplasticsMAGAZINE_1602
bioplasticsMAGAZINE_1602
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Doill Ecotec<br />
Doill WPC (Wood-Plastic Composites) compounds are new<br />
eco-friendly materials in pellet form which are manufactured<br />
with a special binding technique using wood flour and<br />
thermoplastic polymers (PP, PE, ABS, ASA, PS, SAN, PMMA,<br />
PLA, etc). The materials are suitable for extrusion and<br />
injection molding with advanced woody feeling, excellent<br />
durability, excellent water-proof properties, easy molding<br />
characteristics, reducing CO 2<br />
, bio-based plastic materials<br />
and recycled to 100 %.<br />
Extrusion molding applications include decking, cladding,<br />
louver, sound-proof walls, floor, furniture, blinder, panels,<br />
foamed products, interior products, filaments for 3d printing,<br />
etc.. By injection molding the following applications can be<br />
produced: kitchen utensils, cutting board, food containers,<br />
food trays, flower boxes, hangers and scoops, cosmetic<br />
containers, automobile parts, industrial products, and much<br />
more.<br />
N3S45 4<br />
www.doillecotec.com<br />
Uhde Inventa-Fischer<br />
The Polymer Division of ThyssenKrupp Industrial<br />
Solutions AG focuses on the development, engineering<br />
and construction of efficient plant concepts and processes<br />
in the fields of monomers, intermediates, polymers and<br />
machinery.<br />
At Chinaplas <strong>2016</strong> ThyssenKrupp will present their<br />
latest innovations and developments in biobased polymers<br />
They believe in providing cost-efficient processes for<br />
the production of non-petroleum-based polymers, such<br />
as polylactic acid (PLA) and polybutylene succinate (PBS)<br />
as well as its monomers and intermediates lactic acid,<br />
succinic acid and lactide. to fulfill the vision of sustainably<br />
replacing a considerable amount of conventionally<br />
produced materials in the near future.<br />
ThyssenKrupp’s state-of-the-art technologies<br />
are backed by more than 50 years’ experience in<br />
the development, engineering and design of leading<br />
polymerization processes, as well as t h e<br />
engineering and construction<br />
of more than 400<br />
production plants<br />
throughout<br />
the world.<br />
N3L11<br />
23<br />
www.uhde-inventa-fischer.com<br />
Coating p. Materials Co.<br />
CPMC will present new eco-friendly solutions, targeted at synthetic leather and related<br />
industries. This bio-based calendaring grade TPU (Thermoplastic Polyurethane) can not only<br />
solve the problems caused in PVC and PU synthetic leather industries, but also have five<br />
advantages as the follows.<br />
CPMC’s TPU has many advantages including good physical properties, degradable, nontoxic<br />
and non-plasticizer. The process is eco-friendly and offers a high yield rate, and there<br />
is no DMF residue in the final products. As a result, the products can solve VOC emission<br />
problem effectively. The production technology of calendaring grade TPU for eco-friendly<br />
synthetic leather is the same as for PVC, existing PVC synthetic leather equipment can be used. The functions and features are<br />
similar to PVC/PU synthetic leather.<br />
Customers who upgrade use advanced these eco-friendly materials, can promote your brand values and increase<br />
consumers’brand image.<br />
The presented bio-based calendaring grade TPU for eco-friendly synthetic leather can be applied to furnishings industry,<br />
clothing industry, car industry, footwear industry and so on.<br />
N3J61<br />
www.coating.com.tw<br />
Oxo-fragmentable plastics<br />
And finally there are a number of companies offering oxo-fragmentable plastics such as EnerPlastics (N3K01) or Rajiv<br />
Plastic Industries (C11F41). However, as of yet, bioplastics MAGAZINE does not consider such products as bioplastics. We are still<br />
waiting for satisfactory scientifically backed evidence by internationally accepted independent laboratories, proving a complete<br />
biodegradation into water, carbon-dioxide and biomass without accelerating any measurement nor extrapolating any initially<br />
measured degradation. MT<br />
bioplastics MAGAZINE [<strong>02</strong>/16] Vol. 11 31