Experimental investigation on the surface humidity of fabric during the process of dynamic moisture liberation

Article


Li, Wenbin, Jiang, Peiqing, Wang, Xin, Li, Gaowen and Xu, Weilin. 2013. "Experimental investigation on the surface humidity of fabric during the process of dynamic moisture liberation." International Journal of Clothing Science and Technology. 25 (6), pp. 451-456. https://doi.org/10.1108/IJCST-05-2012-0023
Article Title

Experimental investigation on the surface humidity of fabric during the process of dynamic moisture liberation

ERA Journal ID123617
Article CategoryArticle
AuthorsLi, Wenbin (Author), Jiang, Peiqing (Author), Wang, Xin (Author), Li, Gaowen (Author) and Xu, Weilin (Author)
Journal TitleInternational Journal of Clothing Science and Technology
Journal Citation25 (6), pp. 451-456
Number of Pages6
Year2013
Place of PublicationBingley, WYorks. United Kingdom
ISSN0955-6222
1758-5953
Digital Object Identifier (DOI)https://doi.org/10.1108/IJCST-05-2012-0023
Web Address (URL)http://www.emeraldinsight.com/0955-6222.htm
Abstract

Purpose: In this study, a novel dynamic testing method was established to measure the moisture variation of fabric surface during the process of moisture liberation in simulated windy condition. The paper aims to discuss these issues
Design/methodology/approach: In this method, the samples were rotating during the test process so as to simulate the external windy environment. Effects of simulated wind speed, moisture regains and fabric materials on the surface moisture of fabric were investigated.
Findings: Experimental results showed that the surface moisture presented a trapezoidal moisture liberation curve, it increased at first, then kept stable for a while, and decreased finally with the increase of time. It took longer time for the fabric to complete the liberation process when the moisture regain of the fabric increased or the simulated wind speed decreased. The fiber materials of the fabric affected the time for the moisture liberation process under a specific windy condition.
Practical implications: This study will benefit the designing and development of clothing such as sportswear. Originality/value: A dynamic testing method was proposed to characterize the surface humidity of textiles under simulated windy conditions.

Keywordsdynamic; fabric; moisture liberation; simulated wind speed; surface moisture
ANZSRC Field of Research 2020401699. Materials engineering not elsewhere classified
401204. Computational methods in fluid flow, heat and mass transfer (incl. computational fluid dynamics)
401413. Textile technology
Public Notes

© Emerald Group Publishing Limited. Permanent restricted access to published version in accordance with the copyright policy of the publisher.

Byline AffiliationsDonghua University, China
Huizhou University, China
Wuhan Textile University, China
Institution of OriginUniversity of Southern Queensland
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