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A Study on High Contraction Conditions by the CPB Process of the Nylon Fabric
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  • Journal title : Textile Coloration and Finishing
  • Volume 27, Issue 4,  2015, pp.309-317
  • Publisher : The Korean Society of Dyers and Finishers
  • DOI : 10.5764/TCF.2015.27.4.309
 Title & Authors
A Study on High Contraction Conditions by the CPB Process of the Nylon Fabric
Bin, Soyoung; Kim, Dong Kwon; Baek, Yongjin; Jin, Sungwoo; Bae, Jin-Seok;
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This study is the high contraction processing conditions set by the method of the CPB process. And the ultimate goal of this study is the high contraction of the CPB processing test method that can solve the problems of the high-contraction fabric processing method of the current jet dyeing machine. Non-coating process(CPB process) developed by the expression of a soft touch, light weight, functional and to develop excellent breathable nylon fabric. The nylon fabrics established the optimum processing conditions through the high contraction of the various test conditions, the CPB system.(The benzyl alcohol was used as the main constrictor.) At this time, the warp and weft contraction of nylon fabric was about 20%. And it established the constrictor concentration, the treatment temperature, time of a variety of tests. Also non-coating process(CPB process) can develop soft touch, lightweight, excellent air permeability. As a result, we developed a high contraction nylon fabric having a uniform surface. Manufactured fabric is used for Wind-proof and Down-proof.
non-coating;water repellency;wind-proof;down-proof;high contraction;
 Cited by
면니트의 CPB 염색에서 염료 구조에 따른 흡진 거동 분석,홍석일;남창우;이우성;

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H. J. Qi, K. Y. Sui, Z. L. Ma, X. Q. Sun, and J. J. Lu, Polymeric Flurocarbon-coated Polyester Substrates for Water-proof Breathable Fabric Textile, Research J., 72(1), 93(2000).

M. Y. Seo, J. H. Lee, C. M. Ok, S. H. Cho, J. W. Lee, and H. H. Cho, A Study on the Alkali Hydrolysis of Sea-island PET Ultra-microfiber, Textile Coloration and Finishing, 25(4), 303(2013). crossref(new window)

E. A. Kim, S. Yoo, and J. Kim, Development of Human-clothing-environment Simulator for Dynamic Heat and Moisture Transfer Properties of Fabrics, Fiber and Polymers, 51(6), 215(2003).

H. H. Yoo, J. B. Woo, W. S. Kim, S. M. Choi, J. C. Park, and Y. H. Park, Alkali Hydrolysis of New Polyester and Its Properties(II), J. of the Korean Fiber Soc., 38(3), 224(1993).

M. H. Min, Tendency of Functional Finishing Technology for Outdoor-Wear Fabric, Fiber Technology and Industry, 18(2), 108(2014).

Y. S. Song and W. S. Song, Enzymatic Treatment of Polyamide Fiber by Alcalase, The Korean Society of Clothing and Textiles, 35(8), 1006(2011). crossref(new window)

M. S. Park and M. W. Huh, A Study on the Crystal Structure of PET Films of by the Alkali Treatment, Textile Coloration and Finishing, 8(3), 206 (1996).

E. H. Park and W. J. Lee, A Study on Advertising Recall Regarding Color Scheme of Fashion Advertising, Textile Coloration and Finishing, 25(2), 337(2013). crossref(new window)

J. W. Lee, E. J. Chae, and J. S. Bae, Property Evaluation of Breathable Blend Fabric of MPCE Copolymer and Wet Coagulated Polyurethane, Textile Coloration and Finishing, 26(4), 322(2014). crossref(new window)