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http://dx.doi.org/10.5764/TCF.2018.30.2.70

The Dyeing Behavior of PET Bulky Yarn with Disperse Dyes  

Lee, Bum Hoon (Department of Textile Materials Engineering, Shinhan University)
Publication Information
Textile Coloration and Finishing / v.30, no.2, 2018 , pp. 70-76 More about this Journal
Abstract
The dyeing behaviors of poly(ethylene terephthalate)(PET) bulky yarns, DTY(draw textured yarn) and SSY(latent crimped yarn), were investigated with different energy type disperse dyes compared with those of SDY(spin draw yarn). The maximum exhaustions of E-type disperse Red 60, Blue 56 and Yellow 54 on SSY were 99%, 94% and 93%, respectively. The maximum exhaustions of S-type disperse Red 179, Blue 79 and Orange 30 on SSY were 96%, 97% and 97%, respectively. The K/S values of SSY were significantly higher than those of DTY and SDY in all energy type of disperse dyes. The knit fabric composed of SSY became bulky at the end of high temperature dyeing process because of their thermal shrinkage property due to melt viscosity difference.
Keywords
bi-component fiber; latent crimped fiber; textured yarn; dyeability; bulkiness; shrinkage;
Citations & Related Records
Times Cited By KSCI : 3  (Citation Analysis)
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1 Z. Yang and F. Wang, Dyeing and Finishing Performance of Different PTT/PETBi-component Filament Fabrics, Indian J. of Fiber and Textile Research, 41, 411 (2016).
2 M. D. Teli, R. D. Kale, and L. Bhatt, Low Temperature Dyeing of PET/PTT Blend Fibers, Adv. Appl. Sci. Res., 7(3), 13(2016).
3 M. Klancnik, Dyeability of New Polyester, Color. Technol., 122, 334(2006).   DOI
4 A. B. Talele, M. V. S. Rao, and R. S. Gandhi, DyeNon-Uniformity in Textured Yarn Fabrics, Indian J. of Textile Research, 13, 128(1988).
5 M. A. Tehran, B. Azimi, and M. R. M. Mojtahedi, Investigating the Effect of False Twist Texturing Process on the Color Coordinates Variation of Spun-dyed Polyester Filament Yarns, J. of Engineered Fibers and Fabrics, 6(4), 54(2011).
6 S. P. Rwei, Y. T. Lin, andY. Y. Su, Study of Self-Crimp Polyester Fibers, Polym. Eng. Sci., 45, 838(2005).   DOI
7 KTDI, The Development of Latent Crimped Fibers, Korea Textile Development Insitute, Daegu, 2012.
8 KTDI, The Technology of Yarn Finishing Process, Korea Textile Development Insitute, Daegu, 2007.
9 M. S. Park, The Mechanical Properties of New Worsted Wool-like Fabrics Using Latent Yarns. Textile Coloration and Finishing, 23(4), 233(2011).   DOI
10 B. H. Kang, M. H. Kim, and W. H. Park, Preparation and Characterization of New Hand Value Wool-like PET Yarn with Excellent Volume and Stretchability by Differently Shrinkable Mixed Process, Textile Science and Engineering, 53, 1(2016).   DOI
11 M. S. Park, The Physical Properties of Super Bulky Yarn According to Textured Condition, J. Kor. Soc. Cloth. Ind., 12(4), 500(2010).   DOI
12 T. H. Oh, Melt Spinning and Drawing Process of PET Side-by-Side Bicomponent Fibers, J. App. Polym. Sci., 101(3), 1362(2005).   DOI
13 H. Xiao, M. Shi, L. Liu, and G. Dai, The Crystallinity and Orientation Structure and Crimp Properties of PET/PTT Bicomponent Filament, Adv. Mat. Res., 627, 110(2012).
14 http://pdf.itnk.co.kr/1085/108503.pdf, 2017.9.27.