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References [1] Das, B., Das, A., Kothari, V.K., Fanguiero, F., de Araújo, M. (2007). Moisture transmission through textiles Part I: Processes involved in moisture transmission and the factors at play. AUTEX Research Journal, 7(2), 100-110. [2] Das, B., Das, A., Kothari, V.K., Fanguiero, F., de Araújo, M. (2007). Moisture transmission through textiles Part II: Evaluation Methods and Mathematical Modelling. AUTEX Research Journal, 7(3), 194-216. [3] Ciesielska-Wrobel, I., De Mey, G., Van Langenhove, L. (2016). Dry heat transfer from the skin surface into textiles

& Textile Research, 35(2), 128. [10] Hearle, J. W. S. and Morton, W. E. (2008). Physical Properties of Textile Fibres. 4th ed. Cambridge: Woodhead. [11] Das, B., Das, A., Kothari, V., Fanguiero, R., and Araujo, M. (2007). Moisture transmission through textiles. Part I: processes involved in moisture transmission and the factors at play, AUTEX Research Journal, (2), 7. [12] Frydrych, I., Dziworska, G., and Bilska, J. (2002). Comparative analysis of the thermal insulation properties of fabrics made of natural and man-made cellulose fibers. Fibers and Textiles in Eastern

unbleached cotton better than bleached? Exploring the limits of life-cycle assessment in the textile sector. Clothing and Textiles Research Journal, 2015. 33(4): p. 231-247. [28] Behera, B., Comfort and handle behaviour of linen blended fabrics. AUTEX Research Journal, 2007. 7(1): p. 33-47. [29] Das, B., et al., Moisture transmission through textiles. Part I: processes involved in moisture transmission and the factors at play, AUTEX Research Journal, 2007. 2(7). [30] Standard, A., D737-04. Test Method for Air Permeability of Textile Fabrics, 2008.

References [1] B. Das, A. Das, V. K. Kothari, R. Fanguiero, and M. de Araújo, “Moisture transmission through textiles: Part I: Processes involved in moisture transmission and the factors at play,” Autex Res. J., vol. 7, no. 2, pp. 100–110, 2007. [2] A. K. Haghi, “Experimental survey on heat and moisture transport through fabrics,” Int. J. Appl. Mech. Eng., vol. 10, no. 2, pp. 217–226, 2005. [3] P. Chidambaram, R. Govindan, and K. C. Venkatraman, “Study of thermal comfort properties of cotton/regenerated bamboo knitted fabrics,” African J. Basic Appl. Sci., vol. 4

References [1] Slater, K. (1985). Human comfort. Springfield, Ill., U.S.A: C.C. Thomas. [2] Song, G. (2011). Improving Comfort in Clothing. Woodhead Publishing Limited. [3] Li, Y. and Wong, A. S. (2006). Clothing Biosensory Engineering. Woodhead Publishing Limited. [4] Das, B., Das, A., Kothari, V., Fangueiro, R., and de Araujo, M. (2007). Moisture transmission through textiles. Part II: Evaluation methods and mathematical modelling. AUTEX Research Journal, 7(3), 194-216. [5] Dongping, L. and Mai, N. (2009). in Second International Conference on Information

Experiment and Image Processing, Review of Scientific Instruments, 77(9), 093502 - 093502-6 [16] Nath, J., et al., (2001). Design and Development of Multipurpose Absorption Rate Meter, Journal of Agricultural Engineering, 38 (2), 134-140. [17] Nazir, A., et al., (2014). Effect of Knitting Parameters on Moisture Management and Air Permeability of Interlock Fabrics, AUTEX Research Journal, 14(1), 39-46 [18] Nemcokova, R., Komarkova, P., (2014). Experimental Measurement of Liquid Moisture Transmission Through Textiles, Vlakna a textil, 21 (4), 39-47 [19] Odgaard, A., (1997

References [1] Adams, P.S., Keyserling, W.M. (1993). Three methods for measuring range of motion while wearing protective clothing: A comparative study. International Journal of Industrial Ergonomics,12, 177-191. [2] Bartkowiak, G., Dąbrowska, A., Włodarczyk, B. (2015). Construction of a garment for an integrated liquid cooling system, Textile Research Journal, 85(17), 1809-1816. [3] Behera, B., Hari, P. (Ed.). (2010). Woven textile structure: Theory and applications. Woodhead Publishing (Cambridge). [4] Das, B., Das, A., Kothari. V., et al. (2007). Moisture

on heat transfer in firefighter turnout clothing by a sweating manikin. Textile Research Journal, 77(2), 59-66. [18] Zhiying, C, Yanmin, W, Weiyuan, Z. (2010). Thermal protective performance and moisture transmission of firefighter protective Clothing based on orthogonal design. Journal of Industrial Textiles, 39(4), 347-356. [19] Keiser, C., Becker, C. Rossi, R. M. (2008). Moisture transport and absorption in multilayer protective clothing fabrics. Textile Research Journal, 78(7), 604-613. [20] Fu, M., Weng, W., Han, X. (2013). Effects of moisture transfer and