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Wysokowydajna technologia produkcji przędzy oplatanej z zastosowaniem kontroli współczynnika rozciągania przędzy spandexowej
Języki publikacji
Abstrakty
This paper proposes a new covered yarn system in which the tension of spandex elastic yarn drawing is controlled. By analysing the relationship between the draw ratio and yarn tension, it was verified that the new tension controlled drawing system is feasible and results in yarns of superior quality and process stability.
W pracy zaproponowano nowy system wytwarzania przędzy oplatanej, w którym kontrolowane jest naprężenie rozciągania przędzy elastycznej spandex. Analizując zależność między współczynnikiem rozciągania a naprężeniem przędzy, zweryfikowano, że zaproponowany system ciągnienia z kontrolowanym naprężeniem jest wykonalny i zapewnia wytworzenie przędzy o najwyższej jakości z zachowaniem stabilności procesu.
Czasopismo
Rocznik
Strony
24--28
Opis fizyczny
Bibliogr. 24 poz., rys., tab.
Twórcy
autor
- Donghua University, College of Mechanical Engineering, Shanghai, 201620, P.R. China
- Ministry of Education, Engineering Research Center of Advanced Textile Machinery, Shanghai, 201620, P.R. China
autor
- Donghua University, College of Mechanical Engineering, Shanghai, 201620, P.R. China
autor
- Donghua University, College of Mechanical Engineering, Shanghai, 201620, P.R. China
- Ministry of Education, Engineering Research Center of Advanced Textile Machinery, Shanghai, 201620, P.R. China
Bibliografia
- 1. Licheng Liang. Spandex Performance and Application of Technology [J]. Chemical Fiber & Textile Technology 1985(1):16-19.
- 2. Wang Hong, Si Jian, Ye Shi fu. Production Performance and Application of Spandex Fiber. Nonwovens 2008, 16(1): 22-24.
- 3. Bayazit Marmarali A. Dimensional and Physical Properties of Cotton/Spandex Single Jersey Fabrics. Textile Research Journal 2003, 73(1): 11-14.
- 4. Han De Xiao, Dong Wei Guo. The Research of Core-Spun Spandex. Proceedings of the International Conference on Information Technology & Scientific Management, 2010: 600-603.
- 5. Min Dang, Shanyuan Wang. Approximate Study on a Tensile Model of Wool/spandex Core-spun yarn. FIBERS & TEXTILES in Eastern Europe 2007; 15, 4(63): 59-62.
- 6. Gu W Y, Ge M Q. Research on Process Parameters in a Novel Drafting System. Journal of the Textile Institute 2009; 100(1): 76-82
- 7. Wu Yuqun, Wei Chunxia. Technology Advancement of Cotton Spinning Draft System (The First Part). Cotton Textile Technology 2006; 34(11): 21-25.
- 8. Tang Wenhui. The Historical Evolution, Status Quo and Development of the Modern Cotton Spinning Drafting Device. Cotton Textile Technology 1993; (6): 9-17.
- 9. Babay A, Helali H, Msahli S. Study of the Mechanical Behaviour of the ElasticCore-Spun Yarns. Journal of the Textile Institute 2014; 105(7): 701-710.
- 10. Huang Junfeng, Fang Yuan. Effect of Covering Technology on Tensile Properties of Coated Yarn with High-Strength Elasticity Yarn. Advanced Textile Technology 2015; 23(5): 4-7.
- 11. Ma Xiufeng, Zhang Yuqing, Xing Mingjie. The Development of Cover-Spinning Technology: Present & Future. China Textile Leader 2005(10):141-142.
- 12. Zhang Yuqing, Xing Mingjie. the Performance and Practices of HKV141D-I Covered Yarn Machine. Textile Machinery 2004; (03): 13-15.
- 13. Probandt SM T Gmbh, Hammelburg/Germany. Trends in Covering. Melliandchina, 2001.
- 14. Feng P, Zhang R, Gan J, Yang C. High Efficiency Covering Technology for Covered Yarns Production: Equipment and Experiment. FIBRES & TEXTILES in Eastern Europe 2017; 25, 3(123): 73-78. DOI: 10.5604/01.3001.0010.1693.
- 15. Feng P, Zhang R, Yang C. Effects on the Stability of the Balloon Shape in the Covered Yarn Process. FIBRES & TEXTILES in Eastern Europe 2017; 25, 3(123): 68-72. DOI: 10.5604/01.3001.0010.1692.
- 16. He Yuan Fang. Effect of the Draft Ratio of Polyurethane Filament on the Performance of the Elastic Yarn. Advanced Textile Technology 2011, 19(6):4-6.
- 17. Kakvan A, Shaikhzadeh Najar S, Ghazi Saidi R, Nami M. Effects of Draw Ratio and Elastic Core Yarn Positioning on Physical Properties of Elastic Wool/Polyester Core-Spun Ring Yarns. Journal of the Textile Institute 2007; 98(1): 57-63.
- 18. Alsaid Ahmed Almetwally, Mourad MM. Effects of Spandex Drawing Ratio and Weave Structure on the Physical Properties of Cotton/Spandex Woven Fabrics. Journal of the Textile Institute 2014; 105(3): 235-245.
- 19. Merati Ali Akbar, Najar S. Shaikhzadeh, Etrati Seyed Mohammad. Effect of Spandex Filament Draw Ratio on Elastic Core Spun Yarn Properties in Friction Spinning. Textile Research Journal 2012, 13(82): 1363-1370.
- 20. Compile Group of Orthogonal Designing Method. Orthogonal Designing Method and its Application[M].Nanchang: Jiangxi People Press,1979.
- 21. Karasawa Y, Sasaki R, Taniguchi T. Experimental Investigation of Effects of Spandex Brand and Tightness Factor on Dimensional and Physical Properties of Cotton/Spandex Single Jersey Fabrics. Transactions of the Institute of Electronics Information & Communication Engineers B 2008; 78(11): 966-976.
- 22. Jh Lin, Cw Chang, Cw Lou, Wh Hsing. Mechanical Properties of Highly Elastic Complex Yarns with Spandex Made by a Novel Rotor Twister. Textile Research Journal 2004; 74(74): 480-484.
- 23. Cw Lou, Cw Chang, Jh Lin, Ch Lei, Wh Hsing. Production of a Polyester Core -Spun Yarn with Spandex Using a Multi-Section Drawing Frame and a Ring Spinning Frame. Textile Research Journal 2005; 75(5): 395-401.
- 24. Wu Junfeng, Mao Lei. Property Test and Analyses of Polyester Spandex Wrapped Yarn. Cotton Textile Technology 2009; 37(9): 19-2.
Typ dokumentu
Bibliografia
Identyfikator YADDA
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