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Effect of Weave Structure on Thermo-Physiological Properties of Cotton Fabrics

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Warianty tytułu
Języki publikacji
EN
Abstrakty
EN
This paper aims to investigate the relationship between fabric weave structure and its comfort properties. The two basic weave structures and four derivatives for each selected weave structure were studied. Comfort properties, porosity, air permeability and thermal resistance of all the fabric samples were determined. In our research the 1/1 plain weave structure showed the highest thermal resistance making it suitable for cold climatic conditions. The 2/2 matt weave depicted the lowest thermal resistance which makes it appropriate for hot climatic conditions.
Rocznik
Strony
30--34
Opis fizyczny
Bibliogr. 13 poz.
Twórcy
autor
  • Faculty of Engineering & Technology, National Textile University, Faisalabad-37610, Pakistan
autor
  • Faculty of Engineering & Technology, National Textile University, Faisalabad-37610, Pakistan
autor
  • Faculty of Engineering & Technology, National Textile University, Faisalabad-37610, Pakistan
autor
  • Faculty of Engineering & Technology, National Textile University, Faisalabad-37610, Pakistan
autor
  • Centre for Advancement of Textile Engineering and Technology, University of Engineering and Technology Lahore, Faisalabad Campus Faisalabad, Pakistan
autor
  • Faculty of Engineering & Technology, National Textile University, Faisalabad-37610, Pakistan
Bibliografia
  • [1] Das, A. and Ishtiaque, S. (2004). Comfort characteristics of fabrics containing twist-less and hollow fibrous assemblies in weft. Journal of Textile and Apparel, Technology and Management, 3, 1-7.
  • [2] Saville, B. P. (1999). in Physical Testing of Textiles, ed Cambridge, England: Woodhead Publishing Ltd., 1999, pp. 209-243.
  • [3] Majumdar, A., Mukhopadhyay, S., and Yadav, R. (2010). Thermal properties of knitted fabrics made from cotton and regenerated bamboo cellulosic fibers. International Journal of Thermal Sciences, 49, 2042-2048.
  • [4] Atlas, S., “M259B Sweating guarded hotplate instruction manual,” ed: SDL Atlas, 2010.
  • [5] Abdel-Rehim, Z. S., Saad, M., El-Shakankery, M., and Hanafy, I. (2006). Textile Fabrics as Thermal Insulators. AUTEX Research Journal, 6(3), 148.
  • [6] (1994). in Standardization of Guarded hotplate, heat transfer and Water vapour permeability at three laboratories, P. Gibson, M. Auerbach, T. Endrusick, J. Giblo, and W. Teal, Eds., ed Massachusetts: United States army Natick research development and engineering center Natick, 1994.
  • [7] 11092, I., “ISO 11092, Textile - Physiological effects - Measurement of thermal and water vapour resistance under steady state conditions (sweating guarded hotplate test),” ed, 1993.
  • [8] Varshney, R., Kothari, V., and Dhamija, S. (2010). A study on thermophysiological comfort properties of fabrics in relation to constituent fibre fineness and cross-sectional shapes. The Journal of The Textile Institute, 101(6), 495- 505.
  • [9] Tyagi, G., Bhattacharyya, S., Bhowmick, M., and Narang, R. (2010). Study of cotton ring-and compact-spun yarn fabrics: Part II-Effects of spinning variables on comfort characteristics. Indian Journal of Fibre & Textile Research, 35(2), 128.
  • [10] Hearle, J. W. S. and Morton, W. E. (2008). Physical Properties of Textile Fibres. 4th ed. Cambridge: Woodhead.
  • [11] Das, B., Das, A., Kothari, V., Fanguiero, R., and Araujo, M. (2007). Moisture transmission through textiles. Part I: processes involved in moisture transmission and the factors at play, AUTEX Research Journal, (2), 7.
  • [12] Frydrych, I., Dziworska, G., and Bilska, J. (2002). Comparative analysis of the thermal insulation properties of fabrics made of natural and man-made cellulose fibers. Fibers and Textiles in Eastern Europe, 39(4), 40-44.
  • [13] Matusiak, M. and Sikorski, K. (2011). Influence of the structure of woven fabrics on their thermal insulation properties. Fibres & Textiles in Eastern Europe, 19(5), 88.
Typ dokumentu
Bibliografia
Identyfikator YADDA
bwmeta1.element.baztech-6b91fe2f-e9ac-4a00-8948-f6336a94baa7
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