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A Study on Thermal Comfort Comparison between Tencel and Polyester Indoor Cothing  

Chung, Sham-Ho (Dept. of Clothing and Textiles, Chung-ang University)
Yoo, Eun-Ok (Dept. of Clothing and Textiles, Chung-ang University)
Hwang, Soo-Kyung (Sports Leisure Textile Research Center, Inha University)
Lee, Han-Seop (Sports Leisure Textile Research Center, Inha University)
Publication Information
International Journal of Costume and Fashion / v.9, no.1, 2009 , pp. 34-43 More about this Journal
Abstract
This study compared the thermal comfort of indoor clothing from Tencel material that is getting higher in demand due to being eco-friendly with superior wettability, with that from Polyester material that despite being most widely used for indoor clothing, rapidly discharges body sweat due to low wettability. The experiments were performed in the two manners, objective evaluation under the conditions of an artificial climate chamber and subjective evaluation of wearing the given clothes at home followed by filling in the questionnaire. Subjects were 8 healthy elderly women in their 60's who spend majority of their time at home rather than in social activities, and comparison was made on skin temperature and humidity inside clothing at exercise and relaxation states under early summer environment. Based on these results, wearing Tencel material clothing maintained cooler temperatures under warm environment rather than when wearing Polyester material clothing, thus enabling activities under more comfortable state. Regarding humidity inside clothing, parts with twofold clothing did not show difference between Tencel and Polyester, but the onefold arm showed lower when wearing Tencel. With this results, Tencel is regarded as more comfortable and nicer than Polyester.
Keywords
Tencel; Polyester; indoor clothing; comfort;
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1 Nostro, P. L., Corrieri, D., Ceccato, M., & Baglioni, P. (2001). Enzymatic Treatmeants on Tencels in Water and Microemulsion. J. of colloid and Interface Science, 236, pp. 260-281   DOI   ScienceOn
2 2003 New Technology Trend Research Report - High Tech Dyeing. Processing Technology (2004). Chemical/Pharmaceutical Area No.5, 329, Korean Intellectual Property Office
3 Sonobe Shigeru. (1997). Dye of refinement cellulose fiber. Sen-i Gakkaishi, 53(2), p. 58   DOI
4 Yang, I. Y. & Song, H. S. (2004a). Tencel's Weinkle Resistance and DP Feature Using BTCA. Journal of Korean Society of Clothing and Textiles, 28(9/10), pp. 1265-1272
5 Park, Y. H. & Baem H. S. (2005). Development of Sensible Functional Materials through Kitosan Processing of Tencel Mixed Spinning Fabrics(No.1)-Surface Structure Analysis and Handle Evaluations-. Journal of Korean Society of Clothing and Texiles, 29(7), PP. 987-996
6 Sarah E, Braddok & Marie O' Mahony, Translated by Heo, S.H. & Kim, J. G. (2002), Techno Textiles. Seoul: Yekyong
7 Ahn, T. H., Park, J. R. & Park, Y. H. (1993). Transformation into New Synthetic Fiber through Physiochemical Modification of Polyester Fiber(2). Journal of Korean Fiber Society, 30(6), pp. 617-628
8 Ahn, T. H., Park, J. R. & Park, Y. H. (1993). Transformation into New Synthetic Fiber through Physiochemical Modification of Polyester Fiber(1). Journal of Korean Fiber Society, 30(6), pp. 403-411
9 Chen, H-L. & Burns, L.D. (2006). Environmental Analysis of Textile Products. Clothing and Textile Research Journal, 24(3), pp. 248-261   DOI   ScienceOn
10 Oh, G. S. (1987). Absorbent Polyester Fiber. Journal of Korean Fiber Society, 24(6), pp. 120-124
11 Lee, M. S., Bae, S. Y. & Lee, M. C. (1997). Tencel's Dyeing Feature Treated with Sodium Hydroxide and Liquid Ammonia. Journal of Korean Fiber Society, 34(8), pp. 507-516
12 Maureen Dever, Billie J. Coller, Simioan Petrovan, John R. Collier (2003). Lyocell Solution from Alternative Cellolose Sources. Clothing and Textiles Research Journal, 21(4), pp. 167-173   DOI   ScienceOn
13 Jeong, E. S. (1996). Tencel Fabrics' Surface Modification by Cellulase. Journal of Korean Fiber Soceity, 33(5), pp. 458-471
14 Lee, S. W., Jo, S. G. & Choi, J. H. (2006) Clothing and Environment, Requotation. Korean National Open University Press, p. 77
15 Kim, S. R. (2001). Clothing Material Science(3rd Revised ed). Seoul: Gyomunsa
16 Yang, I. Y. & Song, H. S. (2004a). Tencel's Non-Fibrillation Effect Using BTCA. Journal of Korean Fiber Society, 41(1), pp. pp. 44-49
17 Kim, M. J. & Chol, J. H. (1997). Monthly Skin Temperature of Koreans by Gender and Age. Journal of Korean Society of clothing and Textile, 21(2), p. 3
18 Bang, Y.H., Lee, G. H., Jo, G. R., Wang, Y. S.. Kim, H. D. & Jo, H. H. (2000). Lyocell Fiber's Fibrillation Control and Minute Structure(1). Journal of Korean Fiber Society, 37(12), pp. 673-680