PROPERTIES OF KNITTED FABRICS PRODUCED WITH VORTEX SPINNING PRINCIPLE OF REGENERATED CELLULOSE FIBERS

Yıl 2020, Cilt: 3 Sayı: 1, 1 - 9, 30.06.2020

Züleyha Değirmenci Ebru Çoruh

Öz

Abstract

Regenerated cellulosic fibers are obtained by
chemical processing of cellulose-based raw materials. They are similar to
cotton in terms of their structural properties, but their performance
characteristics have changed with the processes they have applied. The
principle of vortex spinning is a spinning technique that has become very
popular in recent years in terms of production speed and yarn quality. In the
study, with the production principle of regenerated cellulose fibers (viscose,
modal, bamboo, tencel) and cotton fibers were made into yarn by vortex spinning
technique. From these yarns, 18 jersey fabrics with different loop lengths
produced by circular knitting machine. In this paper, the structural properties
and drapeabilities of the obtained samples were tested and the results were
compared mathematically and statistically. Results show that the effect of raw
material is more effective parameter than the loop length on the drapeability
of plain knitted fabrics.

Anahtar Kelimeler

regenerated cellulosic fiber, vortex spun yarn

Kaynakça

• References1. RÖDER, Thomas, et al. Comparative characterisation of man-made regenerated cellulose fibres. Lenzinger Berichte, 2009, 87: 98-105.
• 2. Majumdar, A., Mukhopadhyay, S., Yadav, R. (2010). Thermal properties of knitted fabrics made from cotton and regenerated bamboo cellulosic fibres. International Journal of Thermal Sciences, 49.10: 2042-2048.
• 3. SUNDARESAN, S., et al. Study on the Characteristics of Fabric Made From Air Vortex Viscose Rayon Yarn. International Journal on Textile Engineering and Processes ISSN 2395-3578 Vol. 3, Issue 2 April 2017)
• 4. Rameshkumar C., Anandkumar P. , Senthilnathan P., Jeevitha R., Anbumani N. AUTEX Research Journal, Vol. 8, No4, December 2008, Comparitive Studies On Ring Rotor And Vortex Yarn Knitted Fabrics
• 5. Günaydın, G.K., 2011. Murata Vorteks İplik Eğirme Sisteminde İplik Eğirme Düzesinin Özelliklerinin ve Konstrüksiyon Yapısınının İplik Parametrelerine Etkilerinin Araştırılması. Süleyman Demirel Üniversitesi Fen Bilimleri Enstitüsü, Doktora Tezi, 275s, Isparta.
• 6. Basal G. (2003). The structure and properties of Vortex and Compact spun yarns. Dissertation. Faculty of North Carolina State University, Raleigh. Retrieved 2013, 5, 12, Web site: http://repository.lib.ncsu.edu/ir/handle/1840.16/4631
• 7. Basal, G., Oxenham, W. (2003). Vortex Yarn vs. Air-Jet Yarn. AUTEX Research Journal, 3(3), 96-101.
• 8. Soe, A. K., Takahashi, M., Nakajima, M. et al. (2004). Structure and properties of MVS yarns in comparison with ring yarns and open-end rotor spun yarns. Textile Research Journal, 74(9), 819 – 826.
• 9. Basal, G., Oxenham, W. (2006). Effects of some process parameters on the structure and properties of Vortex spunyarn. Textile Research Journal, 76 (6), 492-499
• 10. Erdumlu, N., Ozipek, B., Oztuna, A., Cetinkaya, S. (2009). Investigation of Vortex Spun Yarn Properties in Comparison with Conventional Ring and Open-end Rotor Spun Yarns. Textile Research Journal 79 (7), 585-595.)
• 11. Prakash, C.; Ramakrıshnan, G.; Koushık, C. V. Effect of blend proportion on moisture management characteristics of bamboo/cotton knitted fabrics. The Journal of The Textile Institute, 2013, 104.12: 1320-1326.
• 12. Matsudaira M, Yang M, Kinari T, Shintaku S. Polyester ‘Shingosen’ Fabrics Characterized by Dynamic Drape Coefficient with Swinging Motion. Textile Res. J. 2002; 72, 5: 410–416.
• 13. Angappan P, ‘Handbook on Textile Testing’ p 325-330,1997.
• 14. Değirmenci, Z., and Ebru Ç. (2017). The Influences of Loop Length and Raw Material on Bursting Strength Air Permeability and Physical Characteristics of Single Jersey Knitted Fabrics. Journal of Engineered Fibers and Fabrics 12.1. 43-49.