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Biomimicry of Fibrous Materials: The Thermal Conductivity and morphology of Man-Made and Natural Fibrous Materials |
Faculty of Science, University of British Columbia, 2178-2207 Main Mall, Vancouver, BC, V6T1Z4, Canada
Department of Materials Science and Engineering, University of British Columbia, 6350 Stores Road, Vancouver, BC V6T1Z4, Canada
InnoVision Holdings Corporation., Unit 100, 55 Renfrew Drive, Markham, ON L3R8H3, Canada |
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Abstract With the aim to gain an appreciation of how nature insulates animal bodies with furs, in this exploratory study we investigated the TC and morphology of natural and synthetic fibrous materials. Specifically, we present our experimental observations on coyote, wolverine, and synthetic furs, as well as Polyacrylonitrile (PAN) nanofibers and knitted fabric. The TC was measured at a temperature range of -10 oC to 65 oC. The natural furs consist of fibers with different diameters and cuticular scale patterns. They form core-shell fibers with complex cellular structures in the core. The natural furs have lower TC compared to that of the synthetic fibrous structures. The coyote furs have the lowest TC value of ~0.046 W/mK at -10 oC. While the TC of all of the samples decreased with temperature, the TC of the natural furs decreased at a higher rate and showed a different behavior with temperature, compared to the synthetic fibrous materials.
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Fund:Project supported by the Canadian Fundation for Innovation (CFI) for supporting the infrastructure and the InnoVision Holdings Corporation for providing the natural furs, NSERC Engage program |
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Cite this article: |
Hossein Soltanian,Addie Bahi,Gary Cungu, et al. Biomimicry of Fibrous Materials: The Thermal Conductivity and morphology of Man-Made and Natural Fibrous Materials[J]. Journal of Fiber Bioengineering and Informatics, 2018, 11(2): 113-128.
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