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Developing a rheological model for predicting stress relaxation behavior of cotton-covered elastane core-spun yarns


Affiliations
1 Textile Engineering Laboratory, Ksar Hellal, Tunisia; Higher Institute of fashion, University of Monastir, Tunisia
2 Textile Engineering Laboratory, Ksar Hellal, Tunisia; Higher Institute of Technology Studies of Ksar Hellal,, Tunisia
3 Textile Engineering Laboratory, Ksar Hellal, Tunisia; National School of Engineers of Monastir, University of Monastir, Tunisia
4 Textile Engineering Laboratory, Ksar Hellal, Tunisia; Higher Institute of Arts and Design, University of Sfax, Tunisia

This study aims at providing a new approach to develop a rheological model predicting the stress relaxation behavior of cotton-covered elastane core-spun yarns. The yarns have been manufactured with various counts and elastane drafts. According to a yarn’s tensile and relaxation dataset, the model integrated three components characterizing different tensile curves’ zones. The model validation is established for the whole yarn’s range. Besides, this model fitted well the experimental data with a significant correlation coefficient. Also, it is important to highlight that most of the rheological parameters have almost the same values for various elastane drafts, yarn counts, and imposed deformation levels. Those reproducible results allow us to simulate the elastic core-spun yarn behavior under different constraints and to identify some mechanical parameters relevant to simulate and predict the end product’s properties.

Keywords

Cotton, Elastic core-spun yarns, Elastane-draft, Mechanical Behavior, Rheological model, Stress relaxation, yarn count
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  • Developing a rheological model for predicting stress relaxation behavior of cotton-covered elastane core-spun yarns

Abstract Views: 86  | 

Authors

H Helali
Textile Engineering Laboratory, Ksar Hellal, Tunisia; Higher Institute of fashion, University of Monastir, Tunisia
A Babay
Textile Engineering Laboratory, Ksar Hellal, Tunisia; Higher Institute of Technology Studies of Ksar Hellal,, Tunisia
B Jaouachi
Textile Engineering Laboratory, Ksar Hellal, Tunisia; National School of Engineers of Monastir, University of Monastir, Tunisia
M Chikhrouhou
Textile Engineering Laboratory, Ksar Hellal, Tunisia; Higher Institute of Arts and Design, University of Sfax, Tunisia

Abstract


This study aims at providing a new approach to develop a rheological model predicting the stress relaxation behavior of cotton-covered elastane core-spun yarns. The yarns have been manufactured with various counts and elastane drafts. According to a yarn’s tensile and relaxation dataset, the model integrated three components characterizing different tensile curves’ zones. The model validation is established for the whole yarn’s range. Besides, this model fitted well the experimental data with a significant correlation coefficient. Also, it is important to highlight that most of the rheological parameters have almost the same values for various elastane drafts, yarn counts, and imposed deformation levels. Those reproducible results allow us to simulate the elastic core-spun yarn behavior under different constraints and to identify some mechanical parameters relevant to simulate and predict the end product’s properties.

Keywords


Cotton, Elastic core-spun yarns, Elastane-draft, Mechanical Behavior, Rheological model, Stress relaxation, yarn count