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Investigation into the Strength Properties of Plain Cotton Fabrics after Water Immersion for Upcycling Textiles

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Warianty tytułu
Języki publikacji
EN
Abstrakty
EN
This study utilized SEM to examine the fiber structure of cotton stock fabrics and tested their durability based on ISO standards. Two types of cotton stock fabrics were evaluated: natural-colored (162 cm width, 120.8 g/m2 weight, 281/10 in × 252/10 in density) and black-colored (157 cm width, 136.1 g/m2 weight, 482/10 in × 210/10 in density). Prolonged water immersion caused surface yarns to loosen, fibers to expand, and the cross-sectional area to increase. Residual pulp and impurities on the fabric adhered to fibers. After 27 days, fiber looseness peaked, leading to complete breakdown after 30 days. Natural-colored fabric experienced significant weft strength loss within 12 days, while black fabric showed slightly higher weft strength loss after 36 days. Color changes were prominent in natural-colored fabric during the initial 21 days, while black fabric displayed noticeable changes after 12 days of immersion.
Rocznik
Strony
46--55
Opis fizyczny
Bibliogr. 13 poz., rys., tab.
Twórcy
autor
  • Jiangxi Centre for Modern Apparel Engineering and Technology, Jiangxi Institute of Fashion Technology, Nanchang, Jiangxi, 330201, China
autor
  • Jiangxi Centre for Modern Apparel Engineering and Technology, Jiangxi Institute of Fashion Technology, Nanchang, Jiangxi, 330201, China
autor
  • Jiangxi Centre for Modern Apparel Engineering and Technology, Jiangxi Institute of Fashion Technology, Nanchang, Jiangxi, 330201, China
Bibliografia
  • 1. Rajesh, M., & Naidu, N. V. R. (2022). Design and Development of a Trolley for the Finishing Department of Garment Industry to Enhance Feeding Helper Productivity. In Applications of Computational Methods in Manufacturing and Product Design (pp. 317-328). Springer, Singapore.
  • 2. Saha, K., Dey, P. K., & Papagiannaki, E. (2021). Implementing circular economy in the textile and clothing industry. Business Strategy and the Environment, 30(4), 1497-1530.
  • 3. Aus, R., Moora, H., Vihma, M., Unt, R., Kiisa, M., & Kapur, S. (2021). Designing for circular fashion: integrating upcycling into conventional garment manufacturing processes. Fashion and Textiles, 8(1), 1-18.
  • 4. Armiero, M. (2021). Wasteocene: Stories from the Global Dump. Cambridge University Press.
  • 5. Chen, L., Qie, K., Memon, H., & Yesuf, H. M. (2021). The empirical analysis of green innovation for fashion brands, perceived value and green purchase intention—mediating and moderating effects. Sustainability, 13(8), 4238.
  • 6. World Bank, Global Waste Management Report
  • 7. Huong, T. T., & Shah, I. H. (2021). Dynamics of economy-wide resource flow and consumption in China, South Korea, and Vietnam—a pan-regional analysis. Environmental Monitoring and Assessment, 193(9), 1-18.
  • 8. Blair, J., & Mataraarachchi, S. (2021). A Review of Landfills, Waste and the Nearly Forgotten Nexus with Climate Change. Environments, 8(8), 73.
  • 9. https://img2.fr-trading.com/0/3_384_98034_500_334.jpg.webp
  • 10. International Bureau of Recycling, established 1948.
  • 11. Dissanayake, D. G. K., & Weerasinghe, D. U. (2021). Fabric Waste Recycling: a Systematic Review of Methods, Applications, and Challenges. Materials Circular Economy, 3(1), 1-20.
  • 12. Yang, C., & Song, H. Y. (2022). Study on the Properties of Plain Cotton Fabric Strength in a Natural Environment for Upcycling Textiles. Fibres & Textiles in Eastern Europe, 30(5), 28-38. https://doi.org/10.2478/ftee-2022-0041
  • 13. UNE-EN ISO 13934-1-2013. (2013). Textiles - Tensile properties of fabrics - Part 1: Determination of maximum force and elongation at maximum force using the strip method (ISO 13934-1:2013).
Uwagi
Opracowanie rekordu ze środków MEiN, umowa nr SONP/SP/546092/2022 w ramach programu "Społeczna odpowiedzialność nauki" - moduł: Popularyzacja nauki i promocja sportu (2022-2023).
Typ dokumentu
Bibliografia
Identyfikator YADDA
bwmeta1.element.baztech-0df7ee69-633b-493b-be32-123271ad07dd
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