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Journal |
Textile Coloration and Finishing |
Year / Vol., Issue, Month |
2021 / V.33,no.4,Dec |
Title |
Simulation of the Stiffness of HTPE Fabric according to the Application of Reactive Pigment DTP Process and Dyeability |
Authors |
Jee-hyun Sim1,2, Jong-hyuk Lee2, Seong-Hun Yu2, Gi-Hwan Gwon2, and Jin-Seok Bae |
Institution/Affiliations |
1Kyungpook National University, 2DYETEC |
Pages/Total page |
pp.210 ~ 219 / 10 |
Language |
Korean |
Abstract |
It was intended to conduct basic research to reduce development lead time
and cost consumed in DTP process technology development. For the simulation of
HTPE fabric, virtual engineering software was used to generate fiber model, yarn
model, fabric model, and finite element model of HTPE fiber. The purpose of this
study is to analyze the correlation and error rate between the stiffness numerical analysis
results according to the direct DTP process parameters using reactive dyes in the
generated finite element model and the stiffness measurements of the actual sample according
to ASTM D1388. And, after dyeing the HTPE plain fabric according to the
direct DTP process parameters, we want to analyze the dyeability of the HTPE fabric
fabrics according to the direct DTP process parameters through the color fastness
analysis. When looking at the results of the analysis of the finite element model, a
higher value was shown when the distance between the nozzle and the fabric was
3mm than when the distance was 10mm. When the distance between the nozzle and
the fabric was 10mm and 7mm, the reactive dye did not penetrate sufficiently, resulting
in poor clarity when viewed with the naked eye. |
Keywords |
htpe(high tenacity polyethylene), direct dtp(digital texitle printing), stiffness
of fabric, finite element analysis, reactive pigment, simulation |
Download |
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Reference |
http://koreascience.or.kr/journal/OSGGBT.page?&lang=ko |
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