Research of High-Strength Polyester Fiber Creep Properties
碩士 === 亞東技術學院 === 材料與纖維系應用科技碩士班 === 106 === High-strength polyester filament yarns can replace traditional steel quality to produce submarine cables. This study tested the creep of high-strength polyester fibers with two filament denier yarns and three temperature and load ratios. Through the fractu...
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ndltd-TW-106OIT001590032019-05-30T03:50:42Z http://ndltd.ncl.edu.tw/handle/x45f5p Research of High-Strength Polyester Fiber Creep Properties 高強力聚酯纖維蠕變性質之研究 Yu,Han-Hsiang 游瀚翔 碩士 亞東技術學院 材料與纖維系應用科技碩士班 106 High-strength polyester filament yarns can replace traditional steel quality to produce submarine cables. This study tested the creep of high-strength polyester fibers with two filament denier yarns and three temperature and load ratios. Through the fracture time of creep tests, high load ratio and high temperature will be faster than that of low load and low temperature in creep fracture time. The temperature change influence the fracture time more than the load-to-weight ratio change. The load-to-weight ratio change influence the variation coefficient of fracture time more than temperature does. Regarding the different denier yarn influence the fracture time of the creep test, under the condition of same yarn filament, when the filament denier is higher, there are thicker fibers, and the less filament denier are thin fibers. The influence of temperature and load ratio is more obvious for less filament denier yarns compared to higher filament denier yarns. From the test, we learned the faster break time of low denier filament yarn than high denier filament yarn. Chi-Hsiung Jou 周啟雄 2018 學位論文 ; thesis 58 zh-TW |
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碩士 === 亞東技術學院 === 材料與纖維系應用科技碩士班 === 106 === High-strength polyester filament yarns can replace traditional steel quality to produce submarine cables. This study tested the creep of high-strength polyester fibers with two filament denier yarns and three temperature and load ratios. Through the fracture time of creep tests, high load ratio and high temperature will be faster than that of low load and low temperature in creep fracture time. The temperature change influence the fracture time more than the load-to-weight ratio change. The load-to-weight ratio change influence the variation coefficient of fracture time more than temperature does. Regarding the different denier yarn influence the fracture time of the creep test, under the condition of same yarn filament, when the filament denier is higher, there are thicker fibers, and the less filament denier are thin fibers. The influence of temperature and load ratio is more obvious for less filament denier yarns compared to higher filament denier yarns. From the test, we learned the faster break time of low denier filament yarn than high denier filament yarn.
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author2 |
Chi-Hsiung Jou |
author_facet |
Chi-Hsiung Jou Yu,Han-Hsiang 游瀚翔 |
author |
Yu,Han-Hsiang 游瀚翔 |
spellingShingle |
Yu,Han-Hsiang 游瀚翔 Research of High-Strength Polyester Fiber Creep Properties |
author_sort |
Yu,Han-Hsiang |
title |
Research of High-Strength Polyester Fiber Creep Properties |
title_short |
Research of High-Strength Polyester Fiber Creep Properties |
title_full |
Research of High-Strength Polyester Fiber Creep Properties |
title_fullStr |
Research of High-Strength Polyester Fiber Creep Properties |
title_full_unstemmed |
Research of High-Strength Polyester Fiber Creep Properties |
title_sort |
research of high-strength polyester fiber creep properties |
publishDate |
2018 |
url |
http://ndltd.ncl.edu.tw/handle/x45f5p |
work_keys_str_mv |
AT yuhanhsiang researchofhighstrengthpolyesterfibercreepproperties AT yóuhànxiáng researchofhighstrengthpolyesterfibercreepproperties AT yuhanhsiang gāoqiánglìjùzhǐxiānwéirúbiànxìngzhìzhīyánjiū AT yóuhànxiáng gāoqiánglìjùzhǐxiānwéirúbiànxìngzhìzhīyánjiū |
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1719195461180456960 |