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Improving the Quality of Combed Yarn Spun by OE Rotor Spinning Using the Grey-Taguchi Method

Identyfikatory
Warianty tytułu
Języki publikacji
EN
Abstrakty
EN
Open-end (OE) rotor spinning is a high-productive-efciency as well as a space and energy saving method of producing combed yarns with better evenness, regularity and abrasion resistance, as well as a brighter shade and sharpness. However, the setting of process parameters decides yarn quality, which can be done only afer accumulating experience involving tremendous cost, time and manpower. Firstly, the L9(34) orthogonal array is used to plan the process parameters that have an impact on OE rotor spinning. In this study, the experimental quality characteristrics focused on are the strength and unevenness of combed yarns. Aferwards grey relational analysis is used to establish individual quality characteristics, the demerit of the Taguchi Method, and an optimal set of process parameters of multiple quality characteristics obtained from a response graph of the grey relational analysis. Moreover, a signal-to-noise ratio computation and analysis of variance (ANOVA) are conducted to evaluate the results of the experiments. Using ANOVA, the signifcant factors impacting the quality characteristics of combed yarns are obtained; that is, control over the preceding factors indicates valid control over the quality characteristics of combed yarns. Finally, the reliability and reproducibility are verifed at a 95% confdence interval of the confrmation experiments.
Rocznik
Strony
23--27
Opis fizyczny
Bibliogr. 20 poz.,
Twórcy
autor
autor
autor
autor
  • Department of Cosmetic Application and Management, St. Mary's Medicine, Nursing and Management College, Yilan 26644, Taiwan
Bibliografia
  • 1. Palamatsu S.,Kataglu H.; Fibres & Textiles in Eastern Europe, Vol. 16(4), (2008) pp. 24-28.
  • 2. Yang R.-H., Xue Y., Wang S.-Y.; Fibres & Textiles in Eastern Europe, Vol. 18(1), (2010) pp. 28-30.
  • 3. Kaplan E., Koc.; Fibres & Textiles in Eastern Europe, Vol. 18(2), (2010) pp. 7-13.
  • 4. Jackowska-Strumiłło L., Cyniak D., Czekalski J., Jackowski T.; Fibres & Textiles in Eastern Europe, Vol. 16(1), (2008) pp. 28-36.
  • 5. Erbil Y., Babaarslan O., Baykal P. D.; Fibres & Textiles in Eastern Europe, Vol. 16(2), (2008) pp. 31-34.
  • 6. Ceken F., Kayacan O., Fibres and Polymers, Vol. 8(1), (2007) pp. 89-97
  • 7. Vishnoi P., Ishtiaque S. M., Das A., Fibres and Polymers, Vol. 6(3), (2005) pp. 250-258
  • 8. Murugan R., Dasaradan B. S., Karnan P., Senthilkannan M. S.; Fibres and Polymers, Vol. 8(6), (2007) pp. 665-668.
  • 9. Cheng K. B., Murray R.;Textile Research Journal, Vol. 70(8), (2000) pp. 690-695.
  • 10. Kuo C. F. J., Su T. L.; Fibres and Polymers, Vol. 7(4), (2006) pp. 404-413.
  • 11. Kuo C. F. J., Su T. L., Tsai C. P.; Fibres and Polymers, Vol. 8(6), (2007) pp. 654-664.
  • 12. Deng J. L.; Journal of Grey System, Vol. 1(2), (1989) pp. 103-117.
  • 13. Deng J. L.; Systems and Control Letters, Vol. 5(3), (1982) pp. 288-294.
  • 14. Chen C. B., Lin C. T., Chang C. W., Ho, C. P.; Journal of Technology, Vol. 15(1), (2000) pp. 25-33.
  • 15. Kuo C. F. J., Su T. L.; Polymer–Plastics Technology and Engineering, Vol. 46(5), (2007) pp. 495-505.
  • 16. Su T .L., Kuo Y. L., Chen H. W., Kung F. C., Fibres & Textiles in Eastern Europe, Vol. 18(2), (2010) pp. 60-64.
  • 17. Çaydaş U., Hasçalık A., Optics & Laser Technology, Vol. 40(7), (2008) pp. 987-994.
  • 18. Chen C. C., Tsao C. C., Lin Y. C., Hsu C. Y.; Ceramics International, Vol. 36(3), (2010) pp. 979-988.
  • 19. Kuo C. F. J., Su T. L., Tsai C. P.; Fibres and Polymers, Vol. 8(6), (2007) pp. 654-664.
  • 20. Kuo C. F. J., Su T. L.; Textile Research Journal, Vol. 73(5), (2003) pp. 461-465.
Typ dokumentu
Bibliografia
Identyfikator YADDA
bwmeta1.element.baztech-article-BPW7-0015-0023
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