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This study focuses on the impacts of the draft on the characteristics of MVS produced CVC blended yarn. The output of a finisher drawn sliver with a linear density of 3.54 ktex was converted into yarns of 18.45 tex (32 s /1 Ne) with the help of two separate delivery speeds: 350 and 410 m/min when possessing all constant spinning parameters. The properties of the yarn such as yarn anomaly, imperfections, tensile behaviour, and hairiness were investigated. The significance of independent variables and their relations with the physico-mechanical characteristics of CVC yarn was examined using two-way ANOVA at a 95% level of confidence.
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54--58
Opis fizyczny
Bibliogr. 25 poz., rys., tab.
Twórcy
autor
- ZR Research Institute for Advanced Materials, Sherpur-2100, Bangladesh
- Khwaja Yunus Ali University, Department of Textile Engineering, Sirajgang-6751, Bangladesh
- Kaunas University of Technology, Faculty of Mechanical Engineering and Design, Department of Production Engineering, Studentu 56, LT-51424, Kaunas, Lithuania
autor
- Jashore University of Science and Technology, Department of Textile Engineering, Jashore-7408, Bangladesh
autor
- Mawlana Bhashani Science and Technology University, Department of Textile Engineering, Tangail-1902, Bangladesh
autor
- Pahartali Textile & Hosiery Mills Ltd, Chattogram-4202, Bangladesh
autor
- Khulna University of Engineering & Technology, Department of Textile Engineering, Khulna-9203, Bangladesh
Bibliografia
- 1. Perez-De-Tejada H. Vortex Structures in Fluid Dynamic Problems. Croatia: BoD–Books on Demand; 2017.
- 2. Erdumlu N, Ozipek B. Effect of Draft Ratio on Vortex Spun Yarn Properties. FIBRES & TEXTILES in Eastern Europe 2010; 18(3): 38-42.
- 3. Soe AK, Takahashi M, Nakajima M, Matsuo T, Matsumoto T. Structure and Properties of MVS Yarns in Comparison with Ring Yarns and Open-End Rotor Spun Yarns. Textile Research Journal 2004; 74(9): 819-826.
- 4. Ortlek HG, Nair F, Kilik R, Guven K. Effect of Spindle Diameter and Spindle Working Period on the Properties of 100% Viscose MVS Yarns. FIBRES & TEXTILES in Eastern Europe 2008;16, 3(68): 17-20.
- 5. Al Mamun R, Repon R, Jalil MA, Uddin AJ. Comparative Study on Card Yarn Properties Produced from Conventional Ring and Compact Spinning. Universal Journal of Engineering Science 2017; 5(1): 5-10.
- 6. Murata Vortex Spinner No. 861 Instruction Manual, Muratec, Murata Machinery Ltd.
- 7. Erdumlu N, Ozipek B, Oxenham W. Vortex Spinning Technology. Textile Progress 2012; 44(3-4): 141-74.
- 8. Ortlek HG, Ulku S. Effect of Some Variables on Properties of 100% Cotton Vortex Spun Yarn. Textile Research Journal 2005; 75(6): 458-61.
- 9. Tyagi GK, Sharma D, Salhotra KR. Process-Structure-Property Relationship of Polyester-Cotton MVS Yarns: Part I-Influence of Processing Variables on Yarn Structural Parameters. Indian Journal of Fibre & Textile Research 2004; 29(4): 419-428.
- 10. Tyagi GK, Sharma D, Salhotra KR. Process-Structure-Property Relationship of Polyester-Cotton MVS Yarns: Part II-Influence of Process Variables on Yarn Characteristics. Indian Journal of Fibre & Textile Research 2004; 29(4): 429-435.
- 11. Tyagi GK, Sharma D. Performance and Low-Stress Characteristics of PolyesterCotton MVS Yarns. Indian Journal of Fibre & Textile Research 2004; 29(3): 301-307.
- 12. Basal G, Oxenham W. Effects of some Process Parameters on the Structure and Properties of Vortex Spun Yarn. Textile Research Journal 2006; 76(6): 492-499.
- 13. Tyagi GK, Sharma D. Low-Stress Characteristics of Polyester-Cotton MVS Yarn Fabrics. Indian Journal of Fibre & Textile Research 2005; 30(1): 49-54.
- 14. Tyagi GK, Sharma D. Thermal Comfort Characteristics of Polyester-Cotton MVS Yarn Fabrics. Indian Journal of Fibre & Textile Research 2005; 30(4): 363-370.
- 15. Booth J E. Principle of textile testing, New Delhi: CBS Publishers & Distributers; 1968.
- 16. Fisher RA. The Correlation Between Relatives on the Supposition of Mendelian Inheritance. Trans. Roy. Soc., Edinb. 1930; 52: 399-433.
- 17. Fisher RA. Statistical Methods for Research Workers. Breakthroughs In Statistics 1992 (pp. 66-70). Springer, New York, NY.
- 18. ASTM D276-12, ASTM International, West Conshohocken, 2012.
- 19. Leech NL, Barrett KC, Morgan GA. SPSS for Intermediate Statistics: Use and Interpretation. Psychology Press; 2005.
- 20. Zou Z, Cheng L, Xi B, Luo Y, Liu Y. Investigation of Fiber Trajectory Affected by Some Parameter Variables in Vortex Spun Yarn. Textile Research Journal 2015; 85(2): 180-187.
- 21. Su CI, Liu CH, Jiang JY. Drafting Force of Twin Spun Yarn. Textile Research Journal 2003; 73(9): 815-818.
- 22. Su CI, Jiang JY. Fine Count Yarn Spun with a High Draft Ratio. Textile Research Journal 2004; 74(2): 123-126.
- 23. Su CI, Fang JX. Optimum Drafting Conditions of Non-Circular Polyester and Cotton Blend Yarns. Textile Research Journal 2006; 76(6): 441-447.
- 24. Uddin N, Afroz F, Jalil MA. Retrofitting of Simple Mechanical Compacting Device (Rocos) on Conventional Ring Spinning Machine for Improving Yarn Quality. European Scientific Journal 2015; 11(3): 68-74.
- 25. Jalil MA, Rokonuzzaman M, Razzaque A, Haque AK, Afroz N. Effect of Delivery Speed of Winding Machine on Yarn Hairiness. Journal of Innovation & Development Strategy 2011; 5(1): 6-8.
Typ dokumentu
Bibliografia
Identyfikator YADDA
bwmeta1.element.baztech-83c8d0ea-859c-4fbb-b23f-f4600467bef8