1. bookVolume 14 (2014): Issue 1 (March 2014)
Journal Details
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Format
Journal
eISSN
2300-0929
ISSN
1470-9589
First Published
19 Oct 2012
Publication timeframe
4 times per year
Languages
English
Open Access

An analysis of effective thermal conductivity of heterogeneous materials

Published Online: 14 Mar 2014
Volume & Issue: Volume 14 (2014) - Issue 1 (March 2014)
Page range: 14 - 21
Journal Details
License
Format
Journal
eISSN
2300-0929
ISSN
1470-9589
First Published
19 Oct 2012
Publication timeframe
4 times per year
Languages
English

[1] Cengel, Y. A., (2003). Heat transfer: A practical approach. (2nd ed). New York, McGraw-Hill. Search in Google Scholar

[2] Ismail, M. I.; Ammar, A. S. A.; Elokeily, M. (1988). Heat Transfer through Textile Fabrics: Mathematical Model. Appl Math Model,12 (4), 434-440. 10.1016/0307-904X(88)90075-3Search in Google Scholar

3] Bhattacharjee, D.; Kothari, V. K. (2009). Heat transfer through woven textiles. Int J Heat Mass Tran,52 (7–8), 2155-2160.10.1016/j.ijheatmasstransfer.2008.09.035Search in Google Scholar

[4] Ymashita Yoshihiro; Yamda Hiroakia; Hajimeb, M. (2008). Effective Thermal Conductivity of Plain Weave Fabric and its Composite Material Made from High Strength Fibers Journal of Textile Engineering,54 (4), 111-119.10.4188/jte.54.111Search in Google Scholar

[5] Zhu, F.; Li, K. (2010). Determining Effective Thermal Conductivity of Fabrics by Using Fractal Method. Int J Thermophys,31 (3), 612-619.10.1007/s10765-010-0741-9Search in Google Scholar

[6] Das, A.; Alagirusamy, R.; Kumar, P. (2011). Study of heat transfer through multilayer clothing assemblies: A theoretical prediction. Autex Res J,11 (2), 54-60.Search in Google Scholar

[7] Matusiak, M. (2012). Modelling the thermal resistance of woven fabrics. J Text I,104 (4), 426-437.Search in Google Scholar

[8] Taylor, R. E.; Jortner, J.; Groot, H. (1985). Thermal- Diffusivity of Fiber-Reinforced Composites Using the Laser Flash Technique. Carbon,23 (2), 215-222.10.1016/0008-6223(85)90014-4Search in Google Scholar

[9] Johnson, L. F.; Hasselman, D. P. H.; Chyung, K. (1987). Effect of Silicon-Carbide Fiber or Whisker Reinforcement on the Thermal-Diffusivity Conductivity of an Osumilite Glass-Ceramic. J Am Ceram Soc,70 (6), C135-C138.10.1111/j.1151-2916.1987.tb05671.xSearch in Google Scholar

[10] Zhang, X.; Fujiwara, S.; Fujii, M. (2000). Measurements of thermal conductivity and electrical conductivity of a single carbon fiber. Int J Thermophys,21 (4), 965-980.10.1023/A:1006674510648Search in Google Scholar

[11] Bogaty, H.; Hollies, N. R. S.; Harris, M. (1957). Some Thermal Properties of Fabrics: Part I: The Effect of Fiber Arrangement. Text Res J,27 (6), 445-449.10.1177/004051755702700605Search in Google Scholar

[12] Al-Sulaiman, F. A.; Al-Nassar, Y. N.; Mokheimer, E. M. A. (2006). Numerical prediction of the thermal conductivity of fibers. Heat Mass Transfer,42 (5), 449-461.10.1007/s00231-005-0058-6Search in Google Scholar

[13] Jiri Militky; Kremenakova, D. In Prediction of fabrics thermal conductivity, 5th International textile, clothing & design conference – Magic World of Textiles, Dubrovnik, Croatia, Dubrovnik, Croatia, 2010; pp 1-6.Search in Google Scholar

[14] Eucken, A. (1940). Allgemeine Gesetzmabigkeiten fur das Warmeleitvermogen verschiedener Stoffarten und Aggregatzustande. Forschung Gabiete Ingenieur,11 (1), 6-20.10.1007/BF02584103Search in Google Scholar

[15] Maxwell, J. C., (1954). A Treatise on Electricity and Magnetism. (3rd ed). New York, Dover Publications Inc.Search in Google Scholar

[16] Wang, J.; Carson, J. K.; North, M. F., et al. (2008). A new structural model of effective thermal conductivity for heterogeneous materials with co-continuous phases. Int J Heat Mass Tran,51 (9-10), 2389-2397.10.1016/j.ijheatmasstransfer.2007.08.028Search in Google Scholar

[17] Levy, F. L. (1981). A modified Maxwell-Eucken equation for calculating the thermal conductivity of two-component solutions or mixtures. Int. J. Refrigeration, 4 (4), 223-225.10.1016/0140-7007(81)90053-0Search in Google Scholar

[18] Carson, J. K.; Lovatt, S. J.; Tanner, D. J., et al. (2003). An analysis of the influence of material structure on the effective thermal conductivity of theoretical porous materials using finite element simulations. Int J Refrig,26 (8), 873-880.10.1016/S0140-7007(03)00094-XSearch in Google Scholar

[19] Dasgupta, A.; Agarwal, R. K.; Bhandarkar, S. M. (1996). Three-dimensional modeling of woven-fabric composites for effective thermo-mechanical and thermal properties. Compos Sci Technol,56 (3), 209-223.10.1016/0266-3538(95)00111-5Search in Google Scholar

[20] Krach, A.; Advani, S. G. (1996). Influence of void shape, void volume and matrix anisotropy on effective thermal conductivity of a three-phase composite. J Compos Mater,30 (8), 933-946.10.1177/002199839603000805Search in Google Scholar

[21] Francl, J.; Kingery, W. D. (1954). Thermal Conductivity:IX, Experimental Investigation of Effect of Porosity on Thermal Conductivity. J Am Ceram Soc,37 (2), 99-107. 10.1111/j.1551-2916.1954.tb20108.xSearch in Google Scholar

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