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Water Transport Models of Moisture Absorption and Sweat Discharge Yarns

Wang, Faming LU ; Zhou, Xiaohong and Wang, Shanyuan (2008) In Journal of Donghua University 25(5). p.594-596
Abstract
An important property of moisture absorption and sweat discharge yarns is their water transport property. In the paper, two water transport models of moisture absorption and sweat discharge yarns were developed to investigate the influence factors on their wicking rate. In parallel Column Pores Model, the wicking rate is determined by the equivalent capillary radius R and length of the capillary tube L; In Pellets Accumulation Model, the wicking rate is decided by the capillary radius r and length of the fiber unit assemble L0.
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author
publishing date
type
Contribution to journal
publication status
published
subject
keywords
pellets accumulation model, parallel column pores model, water transport, capillary action, moisture absorption and sweat discharge yarn
in
Journal of Donghua University
volume
25
issue
5
pages
594 - 596
publisher
Donghua University (former China Textile University)
external identifiers
  • scopus:62149110797
ISSN
1672-5220
language
English
LU publication?
no
id
20d97af3-d1af-4e79-805b-78b6efbd80da (old id 1483067)
date added to LUP
2009-10-02 09:11:08
date last changed
2017-01-01 06:06:44
@article{20d97af3-d1af-4e79-805b-78b6efbd80da,
  abstract     = {An important property of moisture absorption and sweat discharge yarns is their water transport property. In the paper, two water transport models of moisture absorption and sweat discharge yarns were developed to investigate the influence factors on their wicking rate. In parallel Column Pores Model, the wicking rate is determined by the equivalent capillary radius R and length of the capillary tube L; In Pellets Accumulation Model, the wicking rate is decided by the capillary radius r and length of the fiber unit assemble L0.},
  author       = {Wang, Faming and Zhou, Xiaohong and Wang, Shanyuan},
  issn         = {1672-5220},
  keyword      = {pellets accumulation model,parallel column pores model,water transport,capillary action,moisture absorption and sweat discharge yarn},
  language     = {eng},
  number       = {5},
  pages        = {594--596},
  publisher    = {Donghua University (former China Textile University)},
  series       = {Journal of Donghua University},
  title        = {Water Transport Models of Moisture Absorption and Sweat Discharge Yarns},
  volume       = {25},
  year         = {2008},
}