Textile Coloration and Finishing (한국염색가공학회지)

The Korean Society of Dyers and Finishers (한국염색가공학회)
권호 표지
DOI QR코드

DOI QR Code

The Optimum Processing Conditions of ATY for PET Braiding for Automotive Hoses

자동차호스용 PET 브레이딩 직물의 최적 ATY 공정조건

  • Published : 2009.08.27
Download PDF
⟨ Previous Next ⟩

Abstract

This study surveys the optimum processing conditions of ATY for PET braiding for automotive hoses. For this purpose, high tenacity and low shrinkable PET filaments with three types of deniers are prepared. Twenty seven ATY specimens are manufactured with variation of feed speed and overfeed on the air jet texturing machine. The physical properties of various yam according to the ATY processing conditions are measured and analysed for deciding the optimum ATY processing condition. Two kinds of ATY filaments made under the optimum air texturing conditions are processed with variation of tpm, heat setting temperature and heat setting time on the 2-for-l twister and setting chamber, respectively. The optimum twisting and heat setting conditions are decided through analysis of the yam physical properties. Finally, the braiding fabric specimens are manufactured using conventional filament and newly developed filament made under optimum twisting and heat setting conditions. The bursting strengths of these braiding specimens are compared and discussed between two types of specimens.

Keywords

References

  1. A. R. Horrocks and S. C. Anand, 'Handbook of Technical Textile', Woodhead Publishing, Bolton, U.K., pp.490-528, 2000
  2. Walter Fung and Mike Hardcastle, 'Textiles in Automotive Engineering', CRC Press, U.K., pp.247-248, 2001
  3. '세계 자동차 생산과 자동차용 섬유소재 수요', 한국섬유개발연구원, 2007
  4. '자동차용 섬유자재의 동향', 한국섬유개발연구원, 2006
  5. 김승진, '폴리에스테르와 나일론 加工絲의 물성과 제조기술 (I)', 지역협력연구센터(RRC), 대한민국, 1999
  6. 김승진, '폴리에스테르와 나일론 加工絲의 물성과 제조기술 (II)', 지역협력연구센터(RRC), 대한민국, 1999
  7. Ali Demir and Hassan Mohamed Behery, 'Synthetic Filament Yam Texturing Technology', Prentice Hall, pp.211-303, 1997
  8. 김갑진외 17명, '인조섬유', 형설출판사, 1994
  9. A. Demir, M. Acar, and G. R. Wray, Air-Jet Textured Yarns: The Effects of Process and Supply Yam Parameters on the Properties of Textured Yarns, Textile Research Journal, 58(6), 318-321(1988) https://doi.org/10.1177/004051758805800602
  10. V. K. Kothari, A. K. Sengupta, J. Srinivasan, and B. C. Goswami, Air-Jet Texturing of CottonFilament Composite Yams for Better Apparel Comfort, Textile Research Journal, 59(5), 292-299(1989) https://doi.org/10.1177/004051758905900507
  11. A. K. Sengupta, V. K. Kothari, and J. Srinivasan, Effect of Repeated Laundering on the Properties of Air-Jet Textured CottOn/Filament Composite Fabrics, Textile Research Journal, 60(10), 573-579(1990) https://doi.org/10.1177/004051759006001004
  12. A. K. Sengupta, V. K. Kothari, and J. Srinivasan, Effect of Process Variables in Air-Jet Texturing on the Properties of Spun Yams with Different Structures, Textile Research Journal, 61(12), 729-735(1991) https://doi.org/10.1177/004051759106101206
  13. J. Srinivasan, A. K. Sengupta, and V. K. Kothari, Air-Jet Texturing of Spun Cotton Yams for Improved Comfort Part IT : Texturability of Carded Spun Yams Compared to Combed Spun Yams, Textile Research Journal, 62(3), 169-175(1992) https://doi.org/10.1177/004051759206200308
  14. A. Demir, Simplified Instability Measurement Devices for Air-Jet Textured Yarns, Textile Research Journal, 59(8), 492-494(1989) https://doi.org/10.1177/004051758905900809