Review on Thermal Conductivity of Fabrics

[1] Majumdar, A., . Modelling of thermal conductivity of knitted fabrics made of cotton-bamboo yarns using artificial neural network. Journal of the Textile Institute, 102: 9, 752-762.

DOI: 10.1080/00405000.2010.516929

Google Scholar

[2] Matusiak, M Modelling the thermal resistance of woven fabrics. J. Text. Inst., (2013)104, 4, 426-437.

Google Scholar

[3] Matusiak, M. and Sikorski, K. Influence of the structure of woven fabric on their thermal insulation properties. Fibres & Textiles in Eastern Europe, (2011), 19(88), 46-52.

Google Scholar

[4] Mohanapriya Venkataraman, Rajesh Mishra, Darino, Jasikova, Kotresh, T.M. and Militky, J, Thermodynamics of aerogel treated nonwoven fabrics at subzero temperatures. J. Ind. Text, (2014) 43, 1-18.

DOI: 10.1177/1528083714534711

Google Scholar

[5] Oguz Demiryurek and Derya Vysalturk, Thermal comfort properties of viloft/cotton and viloft/polyester blended knitted fabrics. Textile Res. (2013) J., 83, 1740-1753.

DOI: 10.1177/0040517513478458

Google Scholar

[6] Prakash, C. A study of yarn and fabrics properties of bamboo/cotton blends. Ph.D., Thesis, Anna University, Chennai. (2014).

Google Scholar

[7] Ramachandran, T., Manonmani, G. and Vigneswaran, C., Thermal behaviour of ring and compact spun yarn single jersey, rib, interlock and knitted fabrics. Ind.J. fibers text Res; (2010) 35, 250 – 257.

Google Scholar

[8] Rana Faruq Mahbub, Ljing Wang, Lyndon Arnold, Sinnappoo Kaneslingam and Rajiv Padhye, (2012) Thermal properties of Kevlar and Kevlar/wool fabrics. Textile Res. J., 84, 2094-2102.

DOI: 10.1177/0040517514532157

Google Scholar

[9] Sheng Shen, Asegun Henry, Jonathan Tong, Ruiting Zheng and Gang Chen Polyethylene nano fibres with very high thermal conductivities, Nature Nanotechnology, (2010), Vol. 5, 251-255.

DOI: 10.1038/nnano.2010.27

Google Scholar

[10] Vesna Marija Potoui Matkovic, Ivana Salopek Cubric and Zenun Skendri Thermal resistance of polyurethane-coated knitted fabrics before and after weathering. Textile Res. J., (2014) 84, 2015-(2025).

DOI: 10.1177/0040517514537368

Google Scholar

[11] M. Matusiak, Thermal comfort index as a method of assessing the thermal comfort and textile material, Fibres and textiles in eastern Europe, 18, to, 79(2010a) 45-50.

Google Scholar

[12] M. Matusiak, Investigation of thermal insulation properties of cotton and cotton/tencel fabrics of diversified structure paper presented at 41st international symposium on Novelties in Textiles, Ljubljan Slovenia-(2010).

Google Scholar

[13] C. Prakash, A study of the properties of cotton/bamboo blends Ph. D: thesis in Anna University(2011).

Google Scholar

[14] J. Militky and D. Krenenakova, Thermal conductivity prediction of textiles materials selected topics of textiles and material science 368- 375 Liberal(2011).

Google Scholar

[15] Mahabub, R. F: Wang, L. Arnold, L. Kineslingana and Padhye, R., Thermal comfort properties of Kevlar and Kevlar/Wool fabrics, Textile Res J: 84(2014) 2094-2102.

DOI: 10.1177/0040517514532157

Google Scholar

[16] V.M. Matkovic, I.S. Cubric, Z. Skenderic, Thermal resistance of polyurethane coated knitted fabrics before and after weathering Textiles. Res J: 84, 19(2014).

Google Scholar