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Study of Thermal Comfort Properties of Different Kinds of Polyester Knitted Fabrics

Treść / Zawartość
Identyfikatory
Warianty tytułu
PL
Badanie właściwości komfortu termicznego różnych rodzajów dzianin poliestrowych
Języki publikacji
EN
Abstrakty
EN
This research focused on the thermal comfort behaviour of polyester with respect to the type of yarn (spun, micro denier, continuous filament and hollow), linear density of the yarn (111 and 166 dtex), and the loop length of knitted fabric (0.25, 0.27 and 0.29 cm).The air permeability of continuous filament yarn fabric and micro denier yarn knitted fabrics was noted to be higher than that of spun yarn knitted fabrics. 111 dtex micro denier yarn fabric has the highest air permeability and 111 dtex spun yarn fabric the lowest air permeability value among all the other fabric samples. Comparatively, coarser spun yarn fabric has lower air permeability characteristics than finer microdenier fabric.The water permeability of the fabric shows a significant difference between the spun yarn, continuous filament yarn and Micro denier yarn knitted fabrics and between the linear density of the yarn. The water vapour permeability of spun yarn of 166 dtex single jersey fabric is higher, while the water vapour permeability of continuous filament yarn fabric of 166 dtex is lower. The thermal conductivity value is high for continuous filament polyester fabric of 100 D and low for microdenier polyester fabric of 166 dtex. Based on the statistical analysis, it is clearly shown that there are significant differences between the three different polyester yarn fabrics of two different denier of the same fabric. Furthermore, the count and different polyester yarn affect the comfort properties of single jersey fabrics.
PL
Badania koncentrowały się na zachowaniu komfortu cieplnego poliestru w odniesieniu do rodzaju przędzy, gęstości liniowej przędzy (111 dtex i 166 dtex) oraz długości pętelki dzianiny (0,25 cm, 0,27 cm oraz 0,29 cm). Zbadano właściwości wytworzonych dzianin takie jak: przepuszczalność powietrza, wody, pary wodnej oraz przewodność cieplną, a wyniki poddano analizie statystycznej.
Rocznik
Strony
50--55
Opis fizyczny
Bibliogr. 21 poz., rys., tab.
Twórcy
  • Odisha University of Agriculture and Technology, College of Community Science, Department of Textiles and Apparel Designing, Bhubaneswar-751003, India
autor
  • Sona College of Technology, Department of Fashion Technology, Salem-636005, Tamil Nadu India
  • VIT Chennai, VIT Fashion Institute of Technology, Chennai-600127, TamilNadu, India
  • Sona College of Technology, Department of Fashion Technology, Salem-636005, Tamil Nadu India
  • Kumaraguru College of Technology, Department of Textile Technology, Coimbatore-641049, Tamil Nadu India
autor
  • Ministry of Textiles, Govt. of India, Indian Institute of Handloom Technology, Department of Handloom and Textiles, Fulia Colony, Shantipur, Nadia-741402, West Bengal, India
autor
  • Ministry of Textiles, Govt. of India, Indian Institute of Handloom Technology, Department of Handloom and Textiles, Fulia Colony, Shantipur, Nadia-741402, West Bengal, India
  • Ministry of Textiles, Govt. of India, Indian Institute of Handloom Technology, Department of Handloom and Textiles, Fulia Colony, Shantipur, Nadia-741402, West Bengal, India
Bibliografia
  • 1. Afzal A, Ahmad S, Rasheed A, Ahmad F, Iftikhar F, Nawab Y. Influence of Fabric Parameters on Thermal Comfort Performance of Double Layer Knitted Interlock Fabrics. Autex Research Journal 2017; 17, 1: 20-26.
  • 2. Ramakrishnan G, Umapathy P, Prakash C. Comfort Properties of Bamboo/Cotton Blended Knitted Fabrics Produced from Rotor Spun Yarns. The Journal of The Textile Institute 2015; 106, 12: 1371-1376.
  • 3. Oglakcioglu N, Maramarali A. Thermal Comfort Properties of Some Knitted Structures. FIBRES & TEXTILES in Eastern Europe 2007; 15, 5-6(64-65): 94-96.
  • 4. Oglakcioglu N, Celik P, Ute TB, Marmarali A, Kadoglu H. Thermal Comfort Properties of Angora Rabbit/Cotton Fiber Blended Knitted Fabrics. Textile Research Journal 2009; 79, 10: 888-894.
  • 5. Gun AD. Dimensional, Physical and Thermal Comfort Properties of Plain Knitted Fabrics Made from Modal Viscose Yarns having Microfibers and Conventional Fibres. Fibers and Polymers 2011; 12, 2: 258-267.
  • 6. Majumdar A, Mukhopadhyay S, Yadav R. Thermal Properties of Knitted Fabrics Made from Cotton and Regenerated Bamboo Cellulosic Fibres. International Journal of Thermal Sciences 2010; 49, 10: 2042-2048.
  • 7. Cimilli S, Nergis BU, Candan C. A Comparative Study of Some Comfort-Related Properties of Socks of Different Fiber Types. Textile Research Journal 2010; 80: 948-957.
  • 8. Achour NS, Hamdaoui M, Nasrallah SB, Perwuelz A. Moisture Management Properties of Cotton and Blended Knitted Fabrics. International Journal of Materials and Metallurgical Engineering 2015; 9(7): 891-895.
  • 9. Ramakrishnan G, Dhurai B, Mukhopadhyay S. An Investigation into the Properties of Knitted Fabrics Made from Viscose Microfibers. Journal of Textile and Apparel Technology and Management 2009; 6(1): 1-9.
  • 10. Frydryn I, Dziworsha G, Bilska J. Comparative Analyses of the Thermal Insulation Properties of Fabrics Made of Natural and Manmade Cellulose Fibres. FIBRES & TEXTILES in Eastern Europe 2002; 10, 4: 40-44.
  • 11. Prakash C, Ramakrishnan G. Study of Thermal Properties of Bamboo/Cotton Blended Single Jersey Knitted Fabrics. Arabian Journal for Science and Engineering 2014; 39, 3: 2289-2294.
  • 12. Bhattacharya SS, Ajmeri JR. Air Permeability of Knitted Fabrics Made from Regenerated Cellulosic Fibres. International Journal of Engineering Research and Development 2014; 10, 7: 16-22.
  • 13. Kothari VK. Thermo Physiological Comfort Characteristics and Blended Yarn Woven Fabrics. Indian Journal of Fibre and Textile Research 2006; 31, 1: 177-186.
  • 14. Thilak V, Saravanan D. Thermal Comfort Properties of Single Jersey Fabrics Made from Recycled Polyester and Cotton Blended Yarns. Indian Journal of Fibre & Textile Research 2017; 42: 318-324.
  • 15. Vidya T, Prakash C. Comparison of Moisture Management Properties of Plasma Treated Single Jersey Fabric with Different Types of Polyester Yarns. FIBRES & TEXTILES in Eastern Europe 2019; 27, 1(133): 32-36. DOI:10.5604/01.3001.0012.7505.
  • 16. Sekerden F.; Investigation on the Unevenness, Tenacity and Elongation Properties of Bamboo/Cotton Blended Yarns. FIBRES & TEXTILES in Eastern Europe 2011; 19, 3(86): 26-29.
  • 17. Prakash C, Ramakrishnan G, Koushik CV. A Study of the Thermal Properties of Single Jersey Fabrics of Cotton, Bamboo and Cotton/Bamboo Blended-Yarn Vis-A-Vis Bamboo Fibre Presence and Yarn Count. Journal of Thermal Analysis and Calorimetry 2012; 110, 3: 1173-1177.
  • 18. Pac MJ, Bueno MA, Renner M, El Kasmi S. Warm-Cool Feeling Relative to Tribological Properties of Fabrics. Textile Research Journal 2001; 71, 9: 806-812.
  • 19. Prahsarn C, Barker RL, Gupta BS. Moisture Vapor Transport Behavior of Polyester Knit Fabrics. Textile Research Journal 2005; 75, 4: 346-351.
  • 20. Öztürk MK, Nergis B, Candan C. A Study of Wicking Properties of Cotton-Acrylic Yarns and Knitted Fabrics. Textile Research Journal 2011; 81, 3: 324-328.
  • 21. Sampath MB, Senthilkumar M. Effect of Moisture Management Finish on Comfort Characteristics of Microdenier Polyester Knitted Fabrics. Journal of Industrial Textiles 2009; 39, 2: 163-173.
Typ dokumentu
Bibliografia
Identyfikator YADDA
bwmeta1.element.baztech-ce9f4de2-a9ac-426f-b31d-8182b6816135
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