Enhancement on ultimate tensile properties of ultrahigh molecular weight polyethylene composite fibers filled with activated nanocarbon particles with varying specific surface areas
Fan, Wang‐Xi, Ding, Yi, Tu, Zhong‐Dan, Huang, Kuo‐Shien, Huang, Chao‐Ming, Yeh, Jen‐Taut
Published in Polymer engineering and science (01.06.2018)
Published in Polymer engineering and science (01.06.2018)
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Journal Article
Preparation of cellulose nanofibers and their improvement on ultradrawing properties of ultrahigh molecular weight polyethylene nanocomposite fibers
Fan, Wang‐xi, Tu, Zhong‐dan, Huang, Chao‐ming, Huang, Kuo‐shien, Yeh, Jen‐taut
Published in Polymers for advanced technologies (01.06.2017)
Published in Polymers for advanced technologies (01.06.2017)
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Journal Article
Ultradrawing properties of ultrahigh molecular weight polyethylenes/functionalized activated nanocarbon as-prepared fibers
Fan, Wang-xi, Wang, Chuen-kai, Tsai, Chih-chen, Ding, Yi, Tu, Zhong-dan, Huang, Chao-Ming, Huang, Kuo-Shien, Yeh, Jen-taut
Published in RSC advances (01.01.2016)
Published in RSC advances (01.01.2016)
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Journal Article
Preparation of cellulose nanofibers and their improvement on ultradrawing properties of ultrahigh molecular weight polyethylene nanocomposite fibers: A Novel Way to Improve the Ultimate Tensile Properties of UHMWPE
Fan, Wang-xi, Tu, Zhong-dan, Huang, Chao-ming, Huang, Kuo-shien, Yeh, Jen-taut
Published in Polymers for advanced technologies (01.06.2017)
Published in Polymers for advanced technologies (01.06.2017)
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Journal Article