CHANGES IN THE PROPERTIES OF ELASTICITY IN THE TECHNOLOGICAL PROCESSES OF SPINNING YARN FROM COTTON FIBER AND WEAVING FABRIC
Creators
- 1. Doctoral student, Namangan Institute of Textile Industry, Republic of Uzbekistan, Namangan
- 2. doc. tech. Sciences, Associate Professor, Namangan Institute of Textile Industry, Republic of Uzbekistan, Namangan
- 3. Can. tech. Sciences, Associate Professor, director of research center LLC "ART SOFT HOLDING", Republic of Uzbekistan, Namangan
Description
This study examines the changes in the elasticity properties of cotton fibers during the technological processes of spinning yarn and weaving fabric. It analyzes how mechanical stresses, such as drafting, twisting, tension, and friction, alter fiber elasticity and affect the quality of the final textile product. Spinning processes lead to reductions in fiber elasticity due to molecular realignment and compression forces, while weaving introduces additional deformation through tension and friction. The cumulative effects result in up to a 30% reduction in fiber elasticity. Strategies for optimizing process parameters, such as controlling twist levels, drafting ratios, and weaving tensions, are explored to preserve fiber elasticity. This research emphasizes the importance of process optimization in enhancing fabric performance and ensuring the sustainability of cotton textiles.
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78-81 Abdujabbarov M.pdf
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Additional details
References
- 1. Gupta, A., & Patel, R. (2020). Mechanical properties of cotton fibers in textile manufacturing. Journal of Textile Science, 15(3), 123–134.
- 2. Smith, D., & Lee, J. (2021). Influence of spinning parameters on yarn elasticity. Textile Research Journal, 92(4), 345–357.
- 3. Zhang, Y., Wang, P., & Zhou, H. (2019). Stress analysis of cotton fibers in weaving. Fabric Mechanics, 18(2), 89–104.
- 4. Huang, X., & Chen, L. (2022). Optimization of weaving tension to improve fabric quality. Journal of Fabric Engineering, 11(1), 45–60.
- 5. Khan, T., & Al-Mohammadi, A. (2018). Elasticity variations in spinning and weaving. International Journal of Textile Innovations, 9(5), 231–245.