09.02.2024 Views

2018_GRR_Measuring the vibration-isolating effect of an elastic railway superstructure in Poland_Biskup_Loy_EN

The Railway Institute at Wrocław University of Science and Technology has convincingly demonstrated the value of the cost-eff ective type SLS1308G under sleeper pads used on the Kraków Airport rail link in Poland. Here, Ewelina Kwiatkowska, Adjunct Professor at Wrocław University of Technology, together with Getzner Werkstoffe colleagues Harald Loy (Head of R&D, Railway Division) and Michael Biskup (Project Manager), explore the requirements, performance of measurements and results of the project.

The Railway Institute at Wrocław University of Science and Technology has convincingly demonstrated the value of the cost-eff ective type SLS1308G under sleeper pads used on the Kraków Airport rail link in Poland. Here, Ewelina Kwiatkowska, Adjunct Professor at Wrocław
University of Technology, together with Getzner Werkstoffe colleagues Harald Loy (Head of R&D, Railway Division) and Michael Biskup (Project Manager), explore the requirements, performance of measurements and results of the project.

SHOW MORE
SHOW LESS

Create successful ePaper yourself

Turn your PDF publications into a flip-book with our unique Google optimized e-Paper software.

INFRASTRUCTURE<br />

<strong>Measur<strong>in</strong>g</strong> <strong>the</strong> <strong>vibration</strong>-<strong>isolat<strong>in</strong>g</strong><br />

<strong>effect</strong> <strong>of</strong> <strong>an</strong> <strong>elastic</strong> <strong>railway</strong><br />

<strong>superstructure</strong> <strong>in</strong> Pol<strong>an</strong>d<br />

The Railway Institute at Wrocław University <strong>of</strong> Science <strong>an</strong>d Technology has<br />

conv<strong>in</strong>c<strong>in</strong>gly demonstrated <strong>the</strong> value <strong>of</strong> <strong>the</strong> cost-<strong>effect</strong>ive type SLS1308G under<br />

sleeper pads used on <strong>the</strong> Kraków Airport rail l<strong>in</strong>k <strong>in</strong> Pol<strong>an</strong>d.<br />

Here, Ewel<strong>in</strong>a Kwiatkowska, Adjunct Pr<strong>of</strong>essor at Wrocław<br />

University <strong>of</strong> Technology, toge<strong>the</strong>r with Getzner Werkst<strong>of</strong>fe<br />

colleagues Harald <strong>Loy</strong> (Head <strong>of</strong> R&D, Railway Division) <strong>an</strong>d<br />

Michael <strong>Biskup</strong> (Project M<strong>an</strong>ager), explore <strong>the</strong> requirements,<br />

perform<strong>an</strong>ce <strong>of</strong> measurements <strong>an</strong>d results <strong>of</strong> <strong>the</strong> project.<br />

Requirements <strong>of</strong> <strong>elastic</strong> under sleeper pads<br />

Railway l<strong>in</strong>e ‘118’, run by <strong>the</strong> Polish state rail<br />

operator PKP PLK, connects Kraków Central<br />

Station to Kraków Airport <strong>an</strong>d was modernised <strong>in</strong><br />

2015. The track’s <strong>superstructure</strong> largely consists<br />

<strong>of</strong> type 60E1 rails, <strong>elastic</strong> rail fasten<strong>in</strong>g systems<br />

on type PS94 concrete sleepers, <strong>an</strong>d a 30cm layer<br />

<strong>of</strong> ballast. Approximately 12,000 under sleeper<br />

pads have been <strong>in</strong>stalled <strong>in</strong> several sensitive<br />

sections <strong>of</strong> track, with requirements be<strong>in</strong>g set out<br />

<strong>in</strong> <strong>the</strong> ‘PB Uklad torrowy i podtorze’ 1 tender text:<br />

‘To reduce negative <strong>in</strong>fluences on <strong>the</strong> surround<strong>in</strong>gs<br />

(reduction <strong>of</strong> disruptive <strong>vibration</strong>s) pads should be<br />

used under <strong>the</strong> sleepers <strong>of</strong> new sections <strong>of</strong> track.<br />

These should represent a cost-<strong>effect</strong>ive alternative<br />

to under ballast mat solutions…In addition to<br />

reduc<strong>in</strong>g <strong>vibration</strong>s emitted to <strong>the</strong> surround<strong>in</strong>g<br />

area, <strong>the</strong> use <strong>of</strong> under sleeper pads c<strong>an</strong> also<br />

reduce dynamic forces’.<br />

SLS1308G under sleeper pads from Getzner<br />

Werkst<strong>of</strong>fe were selected. By us<strong>in</strong>g <strong>the</strong>se<br />

cost-<strong>effect</strong>ive <strong>an</strong>d highly efficient polyureth<strong>an</strong>e<br />

42<br />

products, <strong>the</strong> rail operator aims to signific<strong>an</strong>tly<br />

reduce emissions to <strong>the</strong> surround<strong>in</strong>g environment<br />

by mak<strong>in</strong>g use <strong>of</strong> <strong>the</strong> physical pr<strong>in</strong>ciple <strong>of</strong> <strong>vibration</strong><br />

isolation. Fur<strong>the</strong>rmore, less noise <strong>an</strong>d fewer<br />

<strong>vibration</strong>s should be emitted due to improved<br />

long-term trackbed behaviour, allow<strong>in</strong>g tra<strong>in</strong>s to<br />

run more smoothly. In general, <strong>the</strong> <strong>effect</strong>iveness <strong>of</strong><br />

<strong>elastic</strong> components <strong>in</strong> <strong>the</strong> <strong>railway</strong> <strong>superstructure</strong><br />

is dependent on variables such as mass, stiffness<br />

<strong>an</strong>d damp<strong>in</strong>g. The technical material Sylomer ® has<br />

become <strong>an</strong> established cushion<strong>in</strong>g component for<br />

<strong>the</strong> reduction <strong>of</strong> emissions.<br />

Not all under sleeper pad products are <strong>the</strong> same.<br />

The dynamic stiffness <strong>an</strong>d long-term behaviour are<br />

two crucial factors. It is only possible for padded<br />

sleepers to yield <strong>the</strong>ir full <strong>vibration</strong>-<strong>isolat<strong>in</strong>g</strong> <strong>effect</strong><br />

on <strong>the</strong> track if <strong>the</strong> <strong>superstructure</strong> behaviour has<br />

been precisely calibrated to <strong>the</strong> application at<br />

h<strong>an</strong>d. Although a higher dynamic efficiency <strong>of</strong> <strong>the</strong><br />

chosen polyureth<strong>an</strong>e material (PU) also <strong>in</strong>creases<br />

<strong>the</strong> <strong>vibration</strong> protection perform<strong>an</strong>ce, correctly<br />

calculat<strong>in</strong>g <strong>the</strong> design <strong>of</strong> <strong>the</strong> entire system (<strong>in</strong>clud<strong>in</strong>g<br />

HARALD LOY is Head <strong>of</strong><br />

R&D <strong>in</strong> <strong>the</strong> Railway Division<br />

at Getzner Werkst<strong>of</strong>fe. He<br />

graduated from <strong>the</strong> Technical<br />

University <strong>of</strong> Munich with<br />

a degree <strong>in</strong> Civil Eng<strong>in</strong>eer<strong>in</strong>g<br />

<strong>an</strong>d holds a doctoral degree<br />

<strong>in</strong> Railway Eng<strong>in</strong>eer<strong>in</strong>g from<br />

<strong>the</strong> University <strong>of</strong> Innsbruck.<br />

After be<strong>in</strong>g employed <strong>in</strong> <strong>the</strong><br />

computer <strong>in</strong>dustry, Harald<br />

has been work<strong>in</strong>g as a System<br />

Eng<strong>in</strong>eer s<strong>in</strong>ce 2005, with<br />

a focus on simulation,<br />

laboratory test<strong>in</strong>g <strong>an</strong>d <strong>in</strong>-situ<br />

measurements <strong>of</strong> <strong>elastic</strong><br />

track applications. He is<br />

author <strong>of</strong> over 30 papers,<br />

patents <strong>of</strong> <strong>in</strong>ventions <strong>an</strong>d<br />

technical notes published on<br />

national <strong>an</strong>d <strong>in</strong>ternational<br />

congresses <strong>an</strong>d journals.<br />

global<strong>railway</strong>review.com

Hooray! Your file is uploaded and ready to be published.

Saved successfully!

Ooh no, something went wrong!