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textile combinations. Textile Research Journal, 74(1), 1-6. [5] Schneider, A. M., Hoschke, B. N., Goldsmith, H. J. (1992). Heat transfer through moist fabrics. Textile Research Journal, 62(2), 61-66. [6] Zhu, L., Wang, X., Blanchonette, I., Naebe, M. (2017). Thermal comfort properties of bifacial fabrics. Textile Research Journal, 87(19), 2307-2313. [7] Sun, C., Fan, J. (2017). Comparison of clothing thermal comfort properties measured on female and male sweating manikins. Textile Research Journal, 87(18), 2214-2223. [8] Raimundoa, A. M., Figueiredo, A. R. (2009

to Fabric Wicking Performance. J. Text. Inst. 97 (2), 119–128. [9] Sreenivasan, S. (2009). Total Wear Comfort Index as an Objective Parameter for Characterization of overall Wear ability of Cotton Fabrics. J. Eng. Fiber. Fabr. 4 (4), 35-40. [10] Malik, Z. A. (2011). Development of Model to Predict Tensile Strength of Cotton Woven Fabrics. J. Eng. Fiber Fabr. 6 (4), 41-45. [11] Fatahi, I. (2010). Assessment of Relationship between Air Permeability of Woven Fabrics and its Mechanical Properties. Fibers Text. East. Eur. 18 (6), 68–71. [12] Nayak, R. K. (2009). Comfort

properties of denim fabrics containing different rates of elastane. Fibres & Textiles in Eastern Europe, 1, 63-67. [19] Hes, L., Mangat, M. M. (2010). The effect of industrial washing on thermal comfort parameters of denim fabrics. 7th International Conference - TEXSCI 2010, September 6-8, Liberec, Czech Republic. [20] Haq, U. N., Khan, M. M. R., Khan, M. R. (2015). Investigation of the bulk, surface and transfer properties of chlorine bleached denim apparel at different condition. European Scientific Journal, 11(12), 213-226. [21] Halleb, N. A., Sahnoun, M., Cheikhrouhou

-149. 4. Gorjanc, D.S., Dimitrovski, K., Bizjak, M. (2012). Thermal and water vapor resistance of the elastic and conventional cotton fabrics. Text Res J, 82(4), 1498-1506. 5. Onofrei, E., Rocha, A.M., Catarino, A. (2012). Investigation the effect of moisture on the thermal comfort properties of functional elastic fabrics. J Ind Text, 42(1), 34-51. 6. Fukazawa, T., Havenith, G. (2009). Differences in comfort perception in relation tolocal and whole body skin wettedness. Eur J Appl Physiol, 106(1), 15-24. 7. Laing, R.M., Wilson, C.A., Gore, S.E., Carr, D.J. (2007

References [1] Bahng, G. W. & Lee, J. D. (2014). Development of Heat-generating Polyester Fiber Harnessing Catalytic Ceramic Powder Combined with Heat-generating Super Microorganisms. Textile Research Journal, 84(11), 1220-1230. [2] Beak, W. H. (2001). Review Optimal Hyperthermic Effect of Spectral Characteristic of Far - infrared Radiation Ceramics, Fashion & Tex. Res. J., 3(3), 195-199. [3] Das, A., & Alagirusamy, R. (2010). Science in clothing comfort. Woodhead Publishing India Pvt Limited. [4] Fan, J., & Hunter, L. (2009). Engineering apparel fabrics and

thermal resistance of polyester/cotton blended interlock knitted fabrics. In: International Journal of Thermal Sciences, 2014, vol. 85, pp. 40-46 [8] Cimilli, S., Nergis, B. U. and Candan, C. A comparative study of some comfort related properties of socks of different fiber types. In: Textile Research Journal, 2010, vol. 80, issue 10, pp. 948-957 [9] Schneider, A. M., Hoschke, B. N. and Goldsmid, H. J. Heat transfer through moist fabrics. In: Textile Research Journal, 1992, vol. 62, issue 2, pp. 61-66 [10] Wan, X., Fan, J. and Wu, H. Measurement of thermal radiation

, 10(4), 452-460. [15] M. J. Abreu, A. Catarino, O. Rebelo. November (2012) “Property Evaluation of Diabetic Socks used to prevent Diabetic Foot Syndrome”. Conference: Fiber Society Fall Conference, At USA. [16] Marmarali, A. R. Z. U., Kadoglu, H. U. S. E. Y. I. N., Oglakcioglu, N., Celik, P., Blaga, M., Ursache, M., Loghin, C. (2009, May). Thermal comfort properties of some new yarns generation knitted fabrics. In AUTEX World Textile Conference (pp. 26-28). [17] Oğlakcioğlu, N., Marmarali, A. (2007). Thermal comfort properties of some knitted structures. Fibres

-polyester blended yarns using concept of the hybrid effect. Fibers and Polymers 14(1),157-163. [4] Naebe, M., McGregor, B. A. (2013) Comfort properties of superfine wool and wool/cashmere blend yarns and fabrics. Journal of the Textile Institute, 104(6),634-640. [5] Prakash, C., Ramakrishnan, G., Koushik, C.V.(2013) Effect of blend proportion on moisture management characteristics of bamboo/cotton knitted fabrics. Journal of the Textile Institute, 104(12),1320-1326. [6] Su, C.L., Fang, J.X. (2006) Optimum Drafting Conditions of Non-circular Polyester and Cotton Blend Yarns

, 15 (1), 35-47. [11] Yu Z.C., Zhang J.F., Lou C.W., He H.L., Chen A.B., Lin J.H. (2015). Moisture comfort and antibacterial properties of elastic warp-knitted fabrics, Autes Res J, 15 (1), 60-66. [12] Yu Z.C., Zhang J.F., Lou C.W., He H.L., Chen A.B., Lin J.H. (2015). Wicking behavior and dynamic elastic recovery properties of multifunction elastic warp-knitted fabrics. Textile Res J, 85(14), 1486-1496. [13] Yanılmaz M., Kalaoglu F. (2012). Investigation of wicking, wetting and drying properties of acrylic knitted fabrics. Textile Res J, 82(8), 820-831. [14] Xin L

References [1] Prakash, C., G. Ramakrishnan, and C. Koushik, Effect of blend ratio on the quality characteristics of bamboo/cotton blended ring spun yarn. Fibres & Textiles in Eastern Europe, 2011. 19(6): p. 38-40. [2] Özdil, N., A. Marmaralı, and S.D. Kretzschmar, Effect of yarn properties on thermal comfort of knitted fabrics. International journal of Thermal sciences, 2007. 46(12): p. 1318-1322. [3] Islam, N., Environmental issues in Bangladesh: an overview. Pakistan journal of social sciences, 2005. 3(4): p. 671-679. [4] Qureshi, A.S., Climate change and