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Transport wilgoci w skarpetach wykonanych z poliestru z recyklingu, bawełny i ich mieszanek
Języki publikacji
Abstrakty
The moisture management properties of socks made from recycled polyester, virgin cotton and its blends were studied and compared. As an outcome of this research, the OMMC (Overall Moisture Management Capacity) of socks produced from recycled polyester fabrics gave higher values than those of virgin cotton fabrics. This result demonstrates that recycled poliester fabrics have good moisture management properties and faster water transport capacity compared to other fabrics. The lowest OMMC values were observed for virgin cotton fabrics.
Zbadano i porównano transport wilgoci w skarpetach wykonanych z przetworzonego poliestru, bawełny i ich mieszanek. Stwierdzono, że OMMC (ogólna zdolność zarządzania wilgocią) dla skarpet wyprodukowanych z poliestru miała wyższe wartości, niż w przypadku bawełnianych. Ten wynik pokazał, że wyroby z poliestru z recyklingu miały lepsze właściwości odprowadzania wilgoci i szybszą zdolność transportu wody w porównaniu do pozostałych. Najniższe wartości OMMC zaobserwowano dla skarpet bawełnianych.
Czasopismo
Rocznik
Strony
76--81
Opis fizyczny
Bibliogr. 30 poz., rys., tab.
Twórcy
autor
- VIT Fashion Institute of Technology, VIT Chennai, Chennai – 600 127, Tamil Nadu, India
autor
- Sona College of Technology, Department of Fashion Technology,Salem – 636 005, Tamil Nadu, India
Bibliografia
- 1. Avci H. Comfort Properties of Socks Produced from New Materials. MSc Thesis, Institute of Science and Technology, İTÜ, Istanbul. 2007.
- 2. Babu BS, Senthilkumar P, Senthilkumar M. Effect of yarn linear density on moisture management characteristics of cotton/polypropylene double layer knitted fabrics. Industria Textila 2015; 66(3): 123.
- 3. Barnes JC, Holcombe BV. Moisture Sorption and Transport in Clothing during Wear. Textile Research Journal 1996; 66, 12: 777-786.
- 4. Berg RW, Milligan MC, Sarbaugh FE. Association of Skin Wetness and pH with Diaper Dermatitis. Pediatr. Dermatol. 1994; 11, 1: 18-20.
- 5. Bertaux E, Derler S, Rossi RM, Zeng X, Koehl L, Ventenat V. Textile, Physiological and Sensorial Parameters in Sock Comfort. Textile Research Journal 2010; 80(17): 1803-1810.
- 6. Prakash C, Ramakrishnan G, Chinnadurai S, Vignesh S, Senthilkumar M. Effect of Plasma Treatment on Air and Water -Vapor Permeability of Bamboo Knitted Fabric. International Journal of Thermophysics 2013; 34, 11: 2173-2182.
- 7. Campbell R L, Seymour J L, Stone L C, Milligan M C. Clinical Studies with Disposable Diapers Containing Absorbent Gelling Materials: Evaluation of Effects on Infant Skin Condition. J. Am. Acad. Dermatol. 1987; 17: 978-987.
- 8. Cimilli S. Modeling of Heat Transfer Behaviors of Socks Made From New Fibers Using Finite Element Method. MSc Thesis, Institute of Science and Technology, İTÜ, Istanbul. 2007.
- 9. Cimilli S, Nergis BU, Candan C, Özdemir M. A Comparative Study of Some Comfort-Related Properties of Socks of Different Fiber Types. Textile Research Journal 2010; 80(10): 948-957.
- 10. Das B, Das A, Kothari VK, Fanguiero R, Araújo M. Moisture Transmission through Textiles. Part I: Processes Involved in Moisture Transmission and the Factors at Play. AUTEX Research Journal 2007; 7(2): 100-110.
- 11. Davis JA, Leyden JJ, Grove GL, Raynor W J. Comparison of Disposable Diapers with Fluff Absorbent and Fluff Plus Absorbent Polymers: Effects on Skin Hydration, Skin pH, and Diaper Dermatitis. Pediatr. Dermatol. 1989; 6, 2:102-108.
- 12. Gun AD, Akturk HN, Macit AS, Alan G. Dimensional and Physical Properties of Socks Made from Reclaimed Fibre. The Journal of The Textile Institute 2014; 105: 1108-1117.
- 13. Halimi MT, Azzouz B, Hassen MB, Sakli F. Influence of Spinning Parameters and Recovered Fibers from Cotton Waste on the Uniformity and Hairiness of Rotor Spun Yarn. Journal of Engineered Fibers and Fabrics 2009; 4: 36-44.
- 14. Halimi MT, Hassen MB, Azzouz B, Sakli F. Effect of Cotton Waste and Spinning Parameters on Rotor Yarn Quality. The Journal of The Textile Institute 2007; 98: 437-442.
- 15. Hu J, Li Y, Yeung KW, Wong AS, Xu W. Moisture Management Tester: A Method to Characterize Fabric Liquid Moisture Management Properties. Textile Research Journal 2005; 75(1): 57-62.
- 16. Li Y, Xu W, Yeung KW, Kwok YL. Moisture Management of Textiles. United States Patent, No: US 6,499,338 B2 dated 31.12, 2002.
- 17. Necef OK, Seventekin N, Pamuk M. A Study on Recycling the Fabric Scraps in Apparel Manufacturing Industry. Tekstil ve Konfeksiyon 2013; 23: 286-289.
- 18. Onofrei E, Rocha A, Catarino A. The Influence of Knitted Fabrics’ Structure on the Thermal and Moisture Management Properties. Journal of Engineered Fibers and Fabrics 2011; 6(4): 10-22.
- 19. Parer O. Comfort Studies of the Home Textiles which Lead Denizli Textile Industry. MSc Thesis, Pamukkale Universitesi, Denizli. 2011.
- 20. Sampath MB, Prakash C, Senthil Kumar M. Influence of Laundering on Comfort Characteristics of Moisture Management Finished Micro-Denier Polyester Knitted Fabrics. Fibers and Polymers 2019; 20, 3: 668-674.
- 21. Sarkar M, Fan J, Qian X. Transplanar Water Transport Tester for Fabrics. Measurement Science & Technology 2007; 18, 1465-1471.
- 22. Schuster KC, Suchomel F, Manner J, Abu-Rous M, Firgo H. Functional and Comfort Properties of Textiles from Tencel Fibres Resulting from the Fibres’ Water-Absorbing Nanostructure: A Review. Macromolecular Symposium 2006; 244: 149-165.
- 23. Su CI, Fang JX, Chen XH, Wu WY. Moisture Absorption and Release of Profiled Polyester and Cotton Composite Knitted Fabrics. Textile Research Journal 2007; 77(10): 764-769.
- 24. Supuren G, Oglakcioglu N, Ozdil N, Marmarali A. Moisture Management and Thermal Absorptivity Properties of Double-Face Knitted Fabrics. Textile Research Journal 2011; 81(13): 1320-1330.
- 25. Wang WY, Hui KT, Kan CW, Boontorn K, Manarungwit K, Pholam K and Mongkholrattanasit R. Examining Moisture Management Property of Socks. Key Engineering Materials, 2019; 805: 82-87.
- 26. Tyagi GK, Bhattacharya S, Kumar P. Hand Related Properties of Polyester-Cotton and Polyester-Viscose Ring and Mjs Yarn Fabrics. Indian Journal of Fiber and Textile Research 2008; 33: 126-131.
- 27. Uyanık S, Duru Baykal P. Investigation on Moisture Management Properties of Knitted Fabrics Produced from Vortex -Spun Yarns. The Journal of The Textile Institute 2019; 1-10.
- 28. Van Amber RR, Wilson CA, Laing RM, Lowe BJ, Niven BE. Thermal and Moisture Transfer Properties of Sock Fabrics Differing in Fiber Type, Yarn, and Fabric Structure. Textile Research Journal 2015; 85(12): 1269-1280.
- 29. Yao B, Li Y, Hu J, Kwok Y, Yeung K. An Improved Test Method for Characterizing The Dynamic Liquid Moisture Transfer in Porous Polymeric Materials. Polymer Testing 2006; 25: 677-689.
- 30. Yoon HN, Buckley A. Improved Comfort Polyester Part I: Transport Properties and Thermal Comfort of Polyester/Cotton Blend Fabrics. Textile Research Journal 1984; 54, 5: 289-298.
Uwagi
Opracowanie rekordu ze środków MNiSW, umowa Nr 461252 w ramach programu "Społeczna odpowiedzialność nauki" - moduł: Popularyzacja nauki i promocja sportu (2020).
Typ dokumentu
Bibliografia
Identyfikator YADDA
bwmeta1.element.baztech-5059c350-d685-49ee-859b-0ebc20672aab