Effect of yarn structure variables on comfort properties for cotton towels

Abdel Daim, H.; Hassan, A.

doi:10.21608/idj.2020.81144

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	Effect of yarn structure variables on comfort properties for cotton towels
Article 25, Volume 10, Issue 2 - Serial Number 28, April 2020, Page 279-288 PDF (611.82 K)
Document Type: Original Article
DOI: 10.21608/idj.2020.81144
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Authors
H. Abdel Daim^* ¹; A. Hassan²
¹Spinning, Weave and Knitting Department, Faculty of Applied Arts, Damietta University, Egypt.
²Cotton Research Institute. Agric. Res. Cent., Giza, Egypt.
Abstract
The main purpose of this research is to study the effects of yarn structure variables as key factors influencing the comfort characteristics of cotton towel fabrics. Results of this work can help the producers or manufacturer to create desired quality towel fabric using optimum yarn parameters. The heaviest Grams per Square Meter (GSM) and the highest water vapor permeability were recorded by the Egyptian variety (Giza 90) while the maximum water absorption and air permeability were recorded by the Sudan variety (Acala). It is shown that the mean values of all comfort properties except air permeability decreased when the yarn count and twist multiplier increased. It is obvious that most interaction effects among the yarn parameters (cotton materials, yarn count and twist multiplier) were no significant for all towel comfort properties. It is found negatively and highly significant correlation coefficient between air permeability and each one of the other towel comfort properties. On the other hand, it is indicated that the heavier and thicker towel had more ability to water absorption and water vapor permeability. Also, there was positive and highly significant relation between water absorption and water vapor permeability. Results indicated that there were positively and highly significant associations between yarn hairiness and all towel comfort properties except air permeability. On the contrary, negatively and highly significant associations were obtained between yarn properties being number of neps, thin and thick places and evenness CV % from one side and all towel comfort properties except air permeability from the other side. It is clear that the yarn elongation and yarn tenacity had weak and ineffective effects on the towel comfort properties.
Keywords
Comfort Properties; Cotton Towels; Water Absorption; Air Permeability


References
S. T. M. (1984). Standards on textile, (D-1445 & D-2256). Philadelphia, USA. Abd El-Hady, R.A.M. (2018). Factors influencing the performance characteristics of terry warp-knitted towels. American Journal of Engineering Research (AJER), Vol. 7(2): 67-72. Cruz, Juliana; A. Leitão; D. Silveira; S. Pichandi; M. Pinto and R. Angueiro (2017). Study of moisture absorption characteristics of cotton terry towel fabrics. Procedia Engineering, Vol. 200: 389–398. Durur, G and E. Öner (2013). The comfort properties of the terry towels made of cotton and polypropylene yarns. Journal of Engineered Fibers and Fabrics, Vol. 8(2): 1-10. Habib, Huda (2012). Analyzing the performance properties of bamboo towels. International Journal of Textile and Fashion Technology, 5 (4): 15-26. Kotb, N.A. (2012).The perception of plain woven fabrics performance using regression analysis. J. Basic. Appl. Sci. Res., 2(1): 20-26. MINITAB INC. 2005. Minitab user’s guide, vers. 14. Minitab Inc, Harrisburg, Pennsylvania, USA. Parsi, R.D. (2015). Fibers used in terry towels. International Journal on Textile Engineering and Processes, Vol. (1): 32-39. Ramachandran, M. (2015). Application of natural fibers in terry towel manufacturing. International Journal on Textile Engineering and Processes, Vol. (1): 87-91. Sekerden, F. (2015). A comparative analysis of towels produced from twisted and twistless cotton pile yarns in terms of absorptive capacity and flexural rigidity. Journal of Engineered Fibers and Fabrics, 10 (1): 109-114. Sekerden, F. (2018). A study on comparison of air permeability properties of bamboo / cotton and cotton towels. Sci. Res. Essays, 13: 143-147. Singh, J.P. and B.K. Behera (2014). Performance of terry towel - An article review. Part I: water absorbency. Journal Of Textile And Apparel, Technology And Management, 14:1-14. Singh, J.P. and B.K. Behera (2014). Performance of terry towel. Indian Journal of Fiber & Textile Research, Vol. 40: 112-121. Snedecor, G.W. and W.G. Cochron (1989). Statistical Methods. 8th Ed., Iowa State Univ. Press, Ames Iowa, USA. SPSS INC. 2004. SPSS 14. SPSS User’s guide. SPSS Inc, Chicago, IL, USA. Tusief, M.Q.; N. Aminb; N. Mahmooda; M. B. Ramzanb and H. R. Saleema (2017). The role of yarn counts and polyester/cotton blends in comfort of knitted fabric. Pak. J. Sci. Ind. Res. ser. a: Phys. Sci., 60(3): 162-168. Yildirim, F.F.; E. Gelgec; A.C. Deniz; M.C. Corekcioglu; S. Palamutcu (2018). The comparison of quick drying characteristics of light-weight warp knitted towels. M C B Ü Soma Meslek Yüksekokulu Teknik Bilimler Dergisi, 26 (2):45-54. Yilmaz, N.D. and N.B. Powell (2005). The technological of terry towel production. Journal Of Textile And Apparel, Technology And Management, 4:1-43.
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