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PAMUKLU SÜPREM ÖRME KUMAŞLARIN NEM İLETİM ÖZELLİKLERİ ÜZERİNE BİR ÇALIŞMA

Year 2009, Volume: 19 Issue: 3, 218 - 223, 01.12.2009

Abstract

Çokl yönlü nem iletim yeteneği, kişilerin nemi algılanmasında çok önemli bir etkiye sahip olduğu için günümüzün hazır giyim endüstrisinde giysilerin performansı belirleyen anahtar bir özelliktir. İyi nem absorbe etme yeteneği nedeniyle, pamuklu kumaşlar tişört ve iç çamaşırı gibi genellikle vücuda temas eden ürünlerde kullanılmaktadır. Bu çalışmada, farklı iplik numaralarında (Ne 20, Ne 30, Ne 40) ve iplik büküm katsayılarında (αe=3.2, 3.6, 4.0) üretilmiş olan pamuk iplikleri kullanılmış ve bu ipliklerden aynı üretim şartlarında süprem kumaşlar örülmüştür. Kumaşların nem iletim özellikleri “SDL-ATLAS Moisture Management Tester” cihazında ölçülmüştür. Islanma süresi, maksimum absorbsiyon hızı, yayılma hızı gibi dinamik sıvı iletim özellikleri ölçülmüş ve iplik numarası ile iplik büküm katsayının bu özellikler üzerine etkisinin önemli olduğu belirlenmiştir. Çok yönlü nem iletim kapasitesi değerlerine göre, çalışmada incelenen tüm kumaşların iyi nem iletim yeteneğine sahip olduğu belirlenmiştir

References

  • 1. Cotton Incorporated, Cary North Carolina, 2002, “100% Cotton Moisture Management”, Journal of Textile And Apparel, Technology and Management, Vol. 2., Issue 3
  • 2. http://www.defense-update.com/products/m/moisture_management_fabric.htm
  • 3. Wang, L., Li, C., 2005, “A new method for measuring dynamic fabric heat and moisture comfort”, Experimental Thermal and Fluid Science, 29, pp. 705–714.
  • 4. Li. C., 2001, “Research on Dynamic Thermohydro-Comfort Property of Textiles”, Shanghai Textile Science & Technology, 29 (2) pp. 53– 55.
  • 5. Fourt, L., Holloes N.R.S.,, 1984, “The Comfort and Function of Clothing”, Textile Industry Press, Beijing.
  • 6. Das, B., Das, A., Kothari, V.K., Fanguiero, R., Araújo, M., 2007, “Moisture Transmission Through Textiles Part I: Processes involved in moisture transmission and the factors at play”, AUTEX Research Journal, Vol. 7, No2., pp.100-110
  • 7. Li, Y., Zhu, Q., 2003, “Simultaneous Heat and Moisture Transfer with Moisture Sorption, Condensation and Capillary Liquid Diffusion in Porous Textiles”, Text. Res. J., 73(6), 515-524.
  • 8. Li, Y., , Zhu, Q., Yeung, K. W., 2002, “Influence of Thickness and Porosity on Coupled Heat and Liquid Moisture Transfer in Porous Textiles”, Textile Research Journal, 72 (5), pp. 435-446
  • 9. Dai, X. Q., Imamura, R., Liu, G.L., Zhou, F.P., 2008, “Effect of Moisture Transport on Microclimate Under T-shirts”, European Journal of Applied Physiology, Volume 104, Issue 2, pp.337-340
  • 10. Lin Y.W, Jou G.T, Camenzind M, Bruggmann G, Bolli W, Rossi R, 2005, “Effects of heat and moisture transfer in firefighter: A Study of the Effect of Underwear on Physiological Property and Thermal Protection in Firefighter’s Clothing Assembly”, In 11th International Conference on Environmental Ergonomics. Ystad, Sweden, pp. 462–466
  • 11. Richards, M., Thermprotect Network, 2005, “Effects of Moisture on the Heat Transfer Through Protective Clothing”, International Conference on Environmental Ergonomics, Ystad Sweden
  • 12. Haghi, A.K., 2005, “Experimental Survey on Heat and Moisture Transport Through Fabrics”, Int. J. Applied Mech. & Engng, No. 2, pp. 217-226
  • 13. Meeren, P.V., Cocquyt,, J., Flores, S., Demeyere, H., Declercq, M., 2002, “Quantifying Wetting and Wicking Phenomena in Cotton Terry as Affected by Fabric Conditioner Treatment”, Textile Research Journal, 72 (5), pp. 423-428
  • 14. Niwa M., 1968, “Water Vapor Permeability of Underwear”, J. Jpn. Res. Assn. Textile End Uses., Vol. 9, pp.446 450.
  • 15. Galbraith R.L., Werden, J.E., Fahnestock, M.K., 1962, “Comfort of Subjects Clothed in Cotton, Water Repellent Cotton and Orlon Suits” Tex. Res. J., Vol. 32, pp. 236-243
  • 16. Karahan M., Eren R., 2006, “Experimental Investigation of the Effect of Fabric Construction on Static Water Absorption in Terry Fabrics”, Fibres & Textiles in Eastern Europe, No.2 (56),
  • 17. Karahan, M., 2007, “Experimental Investigation of the Effect of Fabric Construction on Dynamic Water Absorbtion in Terry Fabrics”, Fibres&Textiles in Eastern Europe, July/ September, Vol. 15, No. 3 (62)
  • 18. Su, C.-L., Fang, J.X., Chen, X.-H., Wu, W.Y., 2007, “Moisture Absorption and Release of Profiled Polyester and Cotton Composite Knitted Fabrics”, Textile Research Journal, Vol 77(10), pp. 764–769
  • 19. Ramkumar, S.S., Purushothaman, A., 2007, Hake, K.D., McAlister, D.A. (2007), “Relationship Between Cotton Varieties and Moisture Vapor Transport of Knitted Fabrics”, Journal of Engineered Fibers and Fabric, Volume 2, Issue 4 , pp 10-18
  • 20. Hu, J., Li,Y., Yeung,K.W., 2005, Wong, A.S.W., Xu, W., “Moisture Management Tester: A Method to Characterize Fabric Liquid Moisture Management Properties”, Textile Research Journal, 75 (1); pp.57-62
  • 21. Moisture Management Tester Operation Manual
  • 22. Li, Y., Xu, W., and Yeung, K. W., 2000, “Moisture Management of Textiles”, U.S. patent 6,499,338 B2

A STUDY ON THE MOISTURE TRANSPORT PROPERTIES OF THE COTTON KNITTED FABRICS IN SINGLE JERSEY STRUCTURE

Year 2009, Volume: 19 Issue: 3, 218 - 223, 01.12.2009

Abstract

Moisture management is defined as the ability of a garment to transport moisture away from the skin to the garment’s outer surface in multi-dimensions and it is one of the key performance criteria in today’s apparel industry since it has a significant effect on the human perception of moisture sensations. Because of its good water absorbing property, cotton is often used for next-to-skin wear such as tshirts and underwear. In scope of the study, cotton yarns, produced in different yarn counts (Ne 20, Ne 30, Ne 40) and different twist values (αe=3.2, 3.6, 4.0) were knitted as single jersey structure in the same production conditions. The moisture management properties of the fabrics were measured in “SDL-ATLAS Moisture Management Tester”. Dynamic liquid transport properties of textiles such as wetting time, maximum absorption rate, spreading speed were measured and it was determined that the effects of yarn count and yarn twist coefficient on these properties were significant. According to the overall moisture management capacity of the fabrics calculated according to measured features, it was found that all the fabrics used in this study have good moisture management capability

References

  • 1. Cotton Incorporated, Cary North Carolina, 2002, “100% Cotton Moisture Management”, Journal of Textile And Apparel, Technology and Management, Vol. 2., Issue 3
  • 2. http://www.defense-update.com/products/m/moisture_management_fabric.htm
  • 3. Wang, L., Li, C., 2005, “A new method for measuring dynamic fabric heat and moisture comfort”, Experimental Thermal and Fluid Science, 29, pp. 705–714.
  • 4. Li. C., 2001, “Research on Dynamic Thermohydro-Comfort Property of Textiles”, Shanghai Textile Science & Technology, 29 (2) pp. 53– 55.
  • 5. Fourt, L., Holloes N.R.S.,, 1984, “The Comfort and Function of Clothing”, Textile Industry Press, Beijing.
  • 6. Das, B., Das, A., Kothari, V.K., Fanguiero, R., Araújo, M., 2007, “Moisture Transmission Through Textiles Part I: Processes involved in moisture transmission and the factors at play”, AUTEX Research Journal, Vol. 7, No2., pp.100-110
  • 7. Li, Y., Zhu, Q., 2003, “Simultaneous Heat and Moisture Transfer with Moisture Sorption, Condensation and Capillary Liquid Diffusion in Porous Textiles”, Text. Res. J., 73(6), 515-524.
  • 8. Li, Y., , Zhu, Q., Yeung, K. W., 2002, “Influence of Thickness and Porosity on Coupled Heat and Liquid Moisture Transfer in Porous Textiles”, Textile Research Journal, 72 (5), pp. 435-446
  • 9. Dai, X. Q., Imamura, R., Liu, G.L., Zhou, F.P., 2008, “Effect of Moisture Transport on Microclimate Under T-shirts”, European Journal of Applied Physiology, Volume 104, Issue 2, pp.337-340
  • 10. Lin Y.W, Jou G.T, Camenzind M, Bruggmann G, Bolli W, Rossi R, 2005, “Effects of heat and moisture transfer in firefighter: A Study of the Effect of Underwear on Physiological Property and Thermal Protection in Firefighter’s Clothing Assembly”, In 11th International Conference on Environmental Ergonomics. Ystad, Sweden, pp. 462–466
  • 11. Richards, M., Thermprotect Network, 2005, “Effects of Moisture on the Heat Transfer Through Protective Clothing”, International Conference on Environmental Ergonomics, Ystad Sweden
  • 12. Haghi, A.K., 2005, “Experimental Survey on Heat and Moisture Transport Through Fabrics”, Int. J. Applied Mech. & Engng, No. 2, pp. 217-226
  • 13. Meeren, P.V., Cocquyt,, J., Flores, S., Demeyere, H., Declercq, M., 2002, “Quantifying Wetting and Wicking Phenomena in Cotton Terry as Affected by Fabric Conditioner Treatment”, Textile Research Journal, 72 (5), pp. 423-428
  • 14. Niwa M., 1968, “Water Vapor Permeability of Underwear”, J. Jpn. Res. Assn. Textile End Uses., Vol. 9, pp.446 450.
  • 15. Galbraith R.L., Werden, J.E., Fahnestock, M.K., 1962, “Comfort of Subjects Clothed in Cotton, Water Repellent Cotton and Orlon Suits” Tex. Res. J., Vol. 32, pp. 236-243
  • 16. Karahan M., Eren R., 2006, “Experimental Investigation of the Effect of Fabric Construction on Static Water Absorption in Terry Fabrics”, Fibres & Textiles in Eastern Europe, No.2 (56),
  • 17. Karahan, M., 2007, “Experimental Investigation of the Effect of Fabric Construction on Dynamic Water Absorbtion in Terry Fabrics”, Fibres&Textiles in Eastern Europe, July/ September, Vol. 15, No. 3 (62)
  • 18. Su, C.-L., Fang, J.X., Chen, X.-H., Wu, W.Y., 2007, “Moisture Absorption and Release of Profiled Polyester and Cotton Composite Knitted Fabrics”, Textile Research Journal, Vol 77(10), pp. 764–769
  • 19. Ramkumar, S.S., Purushothaman, A., 2007, Hake, K.D., McAlister, D.A. (2007), “Relationship Between Cotton Varieties and Moisture Vapor Transport of Knitted Fabrics”, Journal of Engineered Fibers and Fabric, Volume 2, Issue 4 , pp 10-18
  • 20. Hu, J., Li,Y., Yeung,K.W., 2005, Wong, A.S.W., Xu, W., “Moisture Management Tester: A Method to Characterize Fabric Liquid Moisture Management Properties”, Textile Research Journal, 75 (1); pp.57-62
  • 21. Moisture Management Tester Operation Manual
  • 22. Li, Y., Xu, W., and Yeung, K. W., 2000, “Moisture Management of Textiles”, U.S. patent 6,499,338 B2
There are 22 citations in total.

Details

Other ID JA87VF29UK
Journal Section Articles
Authors

Nilgün Özdil This is me

Gamze Süpüren This is me

Gonca Özçelik This is me

Jitka Pruchová This is me

Publication Date December 1, 2009
Submission Date December 1, 2009
Published in Issue Year 2009 Volume: 19 Issue: 3

Cite

APA Özdil, N., Süpüren, G., Özçelik, G., Pruchová, J. (2009). A STUDY ON THE MOISTURE TRANSPORT PROPERTIES OF THE COTTON KNITTED FABRICS IN SINGLE JERSEY STRUCTURE. Textile and Apparel, 19(3), 218-223.

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