Abstract
ÇalıŞmada aynı harmandan alınmıŞ %100 pamuk kullanılarak, farklı iplik numaralarında ring kompakt, open end rotor ve vorteks (MVS) iplikleri üretilmiŞtir. Ġplikler sabit yoğunlukta (370 g/dm3 ) sarılarak, boya bobinleri oluŞturulmuŞtur. Ġpliklerin fiziksel özellikleri test edilmiŞtir. Bobinlerin sertlik değerleri “textile hardness tester” cihazı kullanılarak belirlenmiŞtir. Sonuçta vorteks ipliklerle oluŞturulmuŞ boya bobinlerinin ring, kompakt ve open end rotor bobinlerine nazaran daha düŞük bobin sertliğine sahip oldukları belirlenmiŞtir. İstatistiksel varyans analizi sonucunda, özellikle eğirme sistemi bağımsız değiŞkeninin, bobin sertliği bağımlı değiŞkeni üzerinde yüksek etki değerine (0,903) sahip olduğu gözlenmiŞtir. Ayrıca, eğirme sistemi, iplik numarası ve eğirme sistemi-iplik numarası etkileŞiminin bobin sertlik değeri üzerinde önemli bir etkiye (p< 0,01) sahip oldukları belirlenmiŞtir
References
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- 19. Kalaycı, ġ., Albayrak, A., S., KayıĢ, A., ve Ark., “Varyans Analizi”, SPSS Uygulamalı Çok DeğiĢkenli Ġstatistik Teknikleri, ġeref Kalaycı, Asil Yayın Dağıtım Ltd. ġti., Ankara, ISBN; 975-9091-14-3, s.131-182, 2003.
Abstract
In this study, ring, compact, open end rotor and vortex (MVS) yarns with different yarn counts were produced in which the raw material was obtained from the identical %100 combed cotton blend and the spun yarns were wound onto packages having constant density according to the loose winding principle (370 g/dm3 ).The physical properties of the yarns were tested and package hardness values (Shore A) were measured using textile hardness tester. In conclusion, package hardness values of vortex yarns have given lower results compared to ring, rotor and compact spun yarns. In the results of analysis of variance, independent variable of spinning system has a high effect value (Particular Eta Squared 0,903) on the dependent variable. Furthermore, spinning system, yarn number and their interactions were found as significant at significance level (Sig. P< 0.01) on the package hardness values
References
- 1. Park J., “Introduction a Practical Introduction to Yarn Dyeing”, The Society of Dyers and Colorist, ISBN; 0 901956 28 7, UK, 119p, 1981.
- 2. AATCC Symposium,“Yarn Dyeing: Problems and Solutions”, Textile Chemist and Colorist, June, Vol. 22(6), pp. 26-28, 1990.
- 3. AATCC Symposium,“Continuous Improvement in Yarn Dyeing”, Textile Chemist and Colorist, Vol. 23(8), pp. 28-34, 1991.
- 4. AATCC Symposium, “Yarn Dyeing ’97: Insight For Today, A Vision For The Future”, Textile Chemist and Colorist, Vol. 29(9), pp. 9-13, 1997.
- 5. Chakraborty M., Sharma, D.K., “Technological Developments in Yarn Processing”, Colourage, May, pp. 19-22, 1998.
- 6. Yang Y., Mattison V., L., “The Effect of Package Density Profile on Levelness of Package Dyed Yarn”, Textile Chemist and Colorist, Vol. 29(8), pp. 77-81, 1997
- 7. Oxenham W., “Developments in Spinning an Overview of Changing Yarn Formation Technologies”, Textile World, 153(5), pp.34-36, 2003.
- 8. Klein, W., New Spinning Systems: Manual of Textile Technology, The Textile Institute, ISBN-10; 1870812557 ISBN-13; 978-1870812559. 50p., 1993.
- 9. Lord P. R., “Short-Staple Spinning”, Handbook of Yarn Production, Technology, Science and Economics, The Textile Institute, ISBN; 1 85573 6969, pp.169-204, 2003.
- 10. Lawrence, C. A., “Yarn Formation Structure and Properties”, Fundamentals of Spun Yarn Technology, CRC Press LLC, ISBN; 1-56676-821-7, pp.261-414, 2003.
- 11. Soe A. K., Takahashi M. and Nakajima M., at al., “Structure and Properties of MVS Yarns in Comparison With Ring Yarns and Open-End Rotor Spun Yarns”, Textile Research Journal, Vol. 74(9), pp. 815-826, 2004.
- 12. Örtlek H. G., Göksel F., “Murata Vorteks Ġplik Eğirme Sistemi: Tekstildeki Yeri ve Önemi”, II. Tekstil Teknolojileri ve Tekstil Makinaları Kongresi, 19-20 Ekim, Gaziantep/Türkiye, 2007.
- 13. Örtlek H. G., Ülkü S., “The Comparison of The Properties of Murata VortexRing-and Rotor Spun Cotton Yarns”, 5th International Istanbul Textile Conference Papers, Ġstanbul, 2005.
- 14. Örtlek H. G., ġener M., and Ülkü S., “Production Cost Analysis of MVS Yarns and Comparison with the Conventional Spinning Systems”, Tekstil Teknoloji (International Textile Technology Magazine), August, Vol. 9(98), pp. 82-93, 2004.
- 15. Ortlek H. G., Ulku S., “Vorteks Ġplik Üretim Sistemi (MVS) ve Ġplik Özellikleri”, Tekstil&Teknik, Nisan, s.222-228, 2004.
- 16. Uster Technologies, “Uygulama Raporu, Uster Technologies Elyaf ve Ġplik Test Cihazları ile Ölçülen Tüm Kalite Parametrelerinin Açıklanması”, 2005.
- 17. Yarn Package Hardness Tester-Model HP 5, http://www.hans-schmidt.com, internet web sitesi eriĢim tarihi; Temmuz, 2007.
- 18. Becerir, B., Ömeroğlu, S., “Comparison of Color Values of Plain Cotton Fabrics Knitted from Ring and Compact Spun Yarns”, AATCC Review, Vol. 7(7) pp. 41-46, 2007.
- 19. Kalaycı, ġ., Albayrak, A., S., KayıĢ, A., ve Ark., “Varyans Analizi”, SPSS Uygulamalı Çok DeğiĢkenli Ġstatistik Teknikleri, ġeref Kalaycı, Asil Yayın Dağıtım Ltd. ġti., Ankara, ISBN; 975-9091-14-3, s.131-182, 2003.
Details
| Other ID | JA33SY92PE |
|---|---|
| Journal Section | Articles |
| Authors | |
| Publication Date | July 25, 2016 |
| Published in Issue | Year 2010 Volume: 25 Issue: 1 |