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분산염료에 의한 폴리에스터 편평사의 염착 특성. I.

Disperse Dyeing Properties on PET Flat Yarns. I.

  • 이범훈 (신한대학교 섬유소재공학과)
  • Lee, Bum Hoon (Department of Textile Materials Engineering, Shinhan University)
  • 투고 : 2017.09.01
  • 심사 : 2017.10.20
  • 발행 : 2017.10.31

초록

Dyeing properties of disperse dyes of different energy types were investigated for application with poly(ethylene terephthalate) flat yarn (FY). The maximum exhaustions of low-energy type disperse yellow 54, blue 56, and red 60 were 96%, 94%, and 99%, respectively, and high-energy type disperse orange 30, blue 79, and red 167 were 97%, 98% and 98%, respectively. The exhaustion values of high-energy type disperse dyes on flat polyester yarns were higher than those on normal polyester yarn, while the low-energy type disperse dyes showed no significant differences in dyeability between flat and regular yarns. The build-up properties of various disperse dyes on flat polyester yarn were superior to that of regular polyester. The K/S values of flat polyester yarn linearly increased with the increase in dye concentration in the range of 0.5-8.0 wt.%. The half dyeing times of the flat yarns were approximately 5 min shorter than those of general polyester due to their larger surface area and lower crystallinity. The surface area of flat polyester yarn is larger, which directly results in lower crystallinity. Uneven dyeing properties were observed in the same fabric due to cold crystallization, which was also confirmed using DSC.

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참고문헌

  1. H. S. Park, Y. H. Rho, G. W. Yang, and K. C. Go, "Study on Fiber Structure with Ideal Moisture Control Functionality", Text. Sci. Eng., 2014, 51, 140-150. https://doi.org/10.12772/TSE.2014.51.140
  2. H. A. Kim, H. Son, and S. J. Kim, "Effect of Hybrid Yarn Structure Composed of PP/Tencel/Quick Dry PET on the Physical Property of Fabric for High Emotional Garment", Fashion Text. Res. J., 2015, 17, 462-475. https://doi.org/10.5805/SFTI.2015.17.3.462
  3. H. S. Cho, B. S. Lee, and J. S. Koh, "Disperse Dyeing Properties of PET/Dyeable PP Blend Knit", Text. Sci. Eng., 2011, 48, 265-272.
  4. H. A. Kim, J. Y. Woo, and S. J. Kim, "The Physical Property of PET Coolness Knitted Fabric for High Emotional Garment", Textile Coloration and Finishing, 2014, 26, 114-123. https://doi.org/10.5764/TCF.2014.26.2.114
  5. J. W. Park and H. Y. Kim, "Effects of Spinning Conditions on the Fiber Aspect Ratio of Melt Spun PET Flat Yarns", J. Korean Fiber Soc., 1997, 34, 119-124.
  6. S. H. Lee, B. D. Jeon, J. H. Kim, and Y. G. Kim, "Development of High-Tech Polyester Filament Flat Yarn", Proceedings of Korean Fiber Society Spring Conference, p.371, 2002.
  7. E. M. Kim and J. H. Choi, "Dyeing and Color Fastness Properties of Rayon-mimetic Fiber Dyed with Disperse Dyes", Text. Sci. Eng., 2008, 45, 208-213.
  8. J. B. Park, H. H. Cho, and T. Kikutani, "Fiber Structure Formation and Properties in High-Speed Melt Spinning of Sheath-Corelow energy type PET Bicomponent Fibers(II)", J. Korean Fiber Soc., 1998, 35, 125-133.
  9. K. S. Kim, "Spinning Technology of PET Filments", Polym. Sci. Technol., 1992, 3, 85-95.
  10. W. J. Sichina, "DSC as Problem Solving Tool: Measurement of Percet Crystallinity of Thermoplastics", Perkin Elmer Analysis Note, 2000.
  11. Y. H. Kim, K. J. Kim, and K. M. Lee, "Melting and Nonisothermal Crystallization Behaviors of Poly(trimethylene Terephhalate)", J. Korean Fiber Soc., 1997, 34, 860-867.