AN INVESTIGATION OF CONVENTIONAL AND COMPACT RING SPINNING TECHNIQUES EFFECT ON TENSILE AND THERMAL COMFORT PROPERTIES OF WOVEN FABRICS

Yıl 2013, Cilt: 25 Sayı: 3, 91 - 99, 23.12.2013

Muhammet UZUN

Öz

In this study, 65/35% polyester/cotton woven fabrics, which were produced by making use of conventional and compact ring spun yarns, were tested and analysed in terms of tensile and thermal comfort properties. The main purpose of this study is to highlight the effects of compact ring spinning on thermal comfort properties of woven fabrics. Investigation of comfort properties were carried out by using Alambeta and Permetest instruments. It is concluded from the results that spinning techniques have a significant impact on the thermal comfort and tensile properties of the tested fabrics.         

Anahtar Kelimeler

Thermal comfort;tensile properties;compact ring;conventional ring

KONVANSİYONEL VE KOMPAKT RİNG İPLİK EĞİRME YÖNTEMLERİNİN DOKUMA KUMAŞ MUKAVEMET VE TERMAL ÖZELLİKLERİNE ETKİLERİNİN İNCELENMESİ

Öz

Bu çalışmada, konvansiyonel ve kompakt ring eğirme yöntemleri ile elde edilen karışım iplikler (%65/35 polyester/pamuk) kullanılarak üretilmiş dokuma kumaşların, fiziksel ve termal konfor özellikleri incelenmiştir. Kompakt ring eğirme yönteminin termal konfor özelliklerini nasıl etkilediğinin incelenmesi bu çalışmanın temelini oluşturmaktadır. Alambeta ve Permetest cihazları kullanılarak iplik eğirme yöntemlerinin kumaşların termal özelliklerine (kuru ve nemli halde) etkisi karşılaştırmalı olarak analiz edilmiştir. Elde edilen test sonuçları kumaşların termal konfor ve mukavemet özelliklerinin ring eğirme yöntemine göre değiştiğini göstermektedir. Etkileşim istatistiki olarak önemli seviyede bulunmuştur.

Anahtar Kelimeler

Termal konfor;mukavemet;kompakt ring;konvansiyonel ring

Kaynakça

• 1- Krifa M., Ethridge M.D., (2006), Compact Spinning Effect on Cotton Yarn Quality: Interactions with Fiber Characteristics, Textile Research Journal, 76(5), 388-399. 2- Wulfhorst, B.: (Çev. Demir A. ve Torun A), (2003), Tekstilde Üretim Yöntemleri, İ.T.Ü., 75-92. 3- Mourad K., Ethridge D., (2004), A Qualitative Approach to Estimating Cotton Spinnability Limits, Textile Research Journal, 74(7), 611-616. 4- Madran T., (1999), İplikte Tüylülük, Tekstil Maraton, 46-47. 5- Artz P. (1999) Short staple spinning on the way to new yarn structures and better raw material utilisation, International Textile Bulletin, 4:16-23. 6- Wu T., Xie C., Su X., et al. (2011) A Modified Ring Spinning System with Various Diagonal Yarn Path Offsets, Procedia Engineering 18, 1-6. 7- Altas S., Kadoglu H., (2012) Comparison of Conventional Ring, Mechanical Compact and Pneumatic Compact Yarn Spinning Systems, Journal of Engineered Fibers and Fabrics, 7(1), 87-100. 8- Egbers G., (1999), ITMA 1999 light at the end of the tunnel, International Textile Bulletin, 4:11-15. 9- Uzun M., (2012), An investigation of the effects of ultrasonic and traditional washing methods on thermal comfort properties of woven fabrics, Journal of Textiles and Engineer, 19(86):1-6. 10- Uzun M., (2013), Ultrasonic washing effect on thermophysiological properties of natural fabrics, Journal of Engineered Fibres and Fabrics, 8 (1). 11- Hes L., (2008), Non-destruction determination of comfort parameters during marketing functional garment and clothing, Indian Journal of Fiber and Text. Research 33, 239-245. ISSN: 0971-0426. 12- Kawabata S., (2000), A guide line for manufacturing ideal fabrics, International Journal of Clothing Sciences and Technology 12, 134-140. 13- Lee C.V., Ly N.G, (1995) Heat and moisture transfer in textile assemblies, Textile Research Journal-Part 1 65(4), 203. DOI: 10.1177/00405175950650040 14- Milenkovic M., Skundric P., Sokolovic R., Nikolicl T., (1999) Comfort properties of defence protective clothing, The Scientific Journal Facta Universitatis 1(4), 101-106. 15- Li Y., (2001), The science of clothing comfort, Textile Progress 31 (1/2), 1-135. 16- Majumdar A., Mukhopadhyay S., Yadav R., (2010), Thermal properties of knitted fabrics made from cotton and regenerated bamboo cellulosic fibres, International Journal of Thermal Science 49, 2042-2048. DOI: 10.1016/j.iijthermalsci.2010.05017. 17- Omeroglu S., (2005), An investigation about bursting stregth and pilling performance of knitted fabrics made from ring and compact yarns, Pamukkale University Engineering College, Journal of Engineering Sciences, 11(3): 357-360. 18- Dönmez Kretzschmar S., Özgüney A.T., Özçelik G., et.al, (2007), The comparison of cotton knitted fabric properties made of compact and conventional ring yarns before and after the dyeing process, Textile Research Journal, 77: 233-241. 19- Pereira S., Anand S.C., Rajendran S., Wood C., (2007) A study of the structure and properties of novel fabrics for knee braces, Journal of Industrial Textiles 36: 279-300. DOI: 1177/1528083707072357. 20- Hes L., Mangat M.M., (2010), The effect of industrial washing on thermal comfort parameters of denim fabrics, 7 th International Conference-TEXSCI, September 6-8, Liberec, Czech Republic. 21- Hes L., (2008) Heat, moisture and air transfer properties of selected woven fabrics in wet state, Journal of Fiber Bioengineering and Informatics 1, DOI:3993/jfbi12200901.