References
- Hollies N R & Fourt L. Clothing Comfort and Function. Marcel Dekker Inc. New York, USA, 1970, 254.
- Li Y, The Science of Clothing Comfort. The Textile Institute International, Manchester, 2001, 138.
- Geraldes M J, De Araujo M D & Hes L. High Performance Functional Knit Structures. TECNITEX 2001 Autex Conference, The University of Minho, Portugal, 26 - 29 June 2001.
- Lubos, H. Non-Destructive Determination of Comfort Parameters during Marketing of Functional Garments and Clothing. Indian Journal of Fibre & Textile Research, 1996; 33: 239 - 245.
- Hatch K, Woo S, Barker R L, Radhakrishnaiah P, Markee N L & Maibach H I. In Vivo Cutaneous and Perceived Comfort Response to Fabric Part. 1: Thermophysiological Comfort Determinations for Three Experimental Knit Fabrics, Text Res J, 1990; 60, 7, 405 - 412.
- Kothari V K,. Thermo-Physiological Comfort Characteristics and Blended Yarn Woven Fabrics. Indian Journal of Fibre & Textile Research, 2006; 31: 177 - 186.
- Babalik E, Gunesoglu S, Utebay B, Bakadur A & Gunesoglu C. A New Objective Method for Comfort Assessment of Sportswear Knitted Fabrics. Tekst Konf, 2021; 31,4 : 318 - 328.
- Jhanji Y, Gupta D & Kothari V K. Comfort Properties of Plated Knitted Fabrics With Varying Fibre Type. Indian J Fibre Text Res Journal, 2015; 40 : 11 - 18.
- Ghaddar N & Ghali, K. Handbook of Thermal Science and Engineering. Springer Cham, Edinburgh, UK, 2018, 885.
- Ukponmwan J O, The Thermal Insulation Properties of Fabrics. The Textile Institute International, Manchester, 1993, 25.
- Fukazawa T, Kawamura H, Tochihara Y & Tamura T. Experiment and Analysis of Combined Heat and Water Vapor Transfer Through Clothes With Condensation. Text Res J, 2003; 73: 774 - 780.
- Cui Y, Gao S, Zhang R, Cheng L & Jianyong Y. Study on the Moisture Absorption and Thermal Properties of Hygroscopic Exothermic Fibers and Related Interactions with Water Molecules. Polymers, 2020; 12, 1: 98 - 115.
- Jahid M A & Hu J. Water Vapor Transmission and Water Resistant: Opposite but May Coexist. Materials Today, 2019; 16, 1485 - 1490.
- Zang P, Gong R H, Yanai Y & Tokura H. Clothing Air Permeabiliy and Moisture Regain on Human Thermal Regukaiton during Exercise, TECNITEX 2001 Autex Conference, The University of Minho, Portugal, 26 - 29 June 2001.
- Gunesoglu S, Meric B. Heat and Mass transfer Properties of 2-Yarn Fleece Kniited Fabrics. Indian J Fibre Text Res Journal, 2006; 3; 415 - 421.
- Wong K K,Tao X M, Yuen C W M & Yeung K W. Wicking Properties of Linen Treated with Low Temperature Plasma. Text Res J, 2001; 71: 49-56.
- Namligöz E S, Coban S & Bahtiyari I. Comparison of Moisture Transport Properties of the Various Woven Fabrics. Tekst Konf, 2010; 2 :93 - 100.
- Ozdil N, Marmarali A & Kretzschmar S D. Effect of Yarn Properties on Thermal Comfort of Knitted Fabrics. Int J of Thermal Sci, 2007; 46, 12: 1318 - 1322.
- Prakash C & Ramakrishnan G. Effect of Blend Ratio, Loop Length, and Yarn Linear Density on Thermal Comfort Properties of Single Jersey Knitted Fabrics. Int J of Thermophysics, 2013; 34: 113 - 121.
- Meena H C, Shakyawar D B, Varshney R K & Kadam V. Thermo-physiological Clothing Comfort of Wool-Cotton Khadi Union Fabrics. Journal of Natural Fibers, 2022; 19, 14: 7728 - 7737.
- Ozkan E T & Meric B, Thermophysiological Comfort Properties of Different Knitted Fabrics Used in Cycling Clothes. Text Res J, 2015; 85, 1: 62 - 70.
- Eltahan E A, Sultan M & Mito A B. Determination of Loop Length, Tightness Factor and Porosity of Single Jersey Knitted Fabric. Alexandria Eng Journal, 2016: 55, 2 : 851 - 856.