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W2183024311 abstract "In recent years, natural fiber reinforced green composite materials have attracted the attention of scientists and technologists in the fields of aerospace, automotive, construction and sporting industries due to their unique advantages of low density, high specific properties, non-corrosive and degradable properties, low-cost and readily available comparable to those of conventional fiber composite materials[1, 2]. Especially, the thermal insulation property of natural fiber composite have been considered as an potential function. Because of the hollow structure of natural fiber, the design of composites with a good thermal insulation property by using natural fiber and polymer will be of great value. In the last few years, many works have been started on thermal conductivity of natural fiber composites[3-7]. Furthermore, due to transverse thermal conductivity is lower than longitudinal thermal conductivity[7], Study on the transverse thermal conductivity of unidirectional composites has been one of focuses of many investigators, including numerical solutions and theoretical approaches as well as experiments[8-12]. However, only few paper about transverse thermal conductivity of natural fiber composites is reported[5, 7], they haven’t considered the effect of the hollow structure on the thermal conductivity of the composite. Natural fibers have lumen which is filled with air, and some fibers have very large lumen like Manila hemp fiber, cotton fiber and kapok fiber, such large size lumen can lead to a very low transverse thermal conductivity when these fibers were used to fabricate composites, So it is essential to evaluate the function of lumen size of the fiber to the transverse thermal conductivity. Thermal–electrical analogy technique is a very useful method. The thermal– electrical analogy technique have been successfully employed for the thermal system of heat flow governed by the Fourier law. To our best knowledge, there are so many works demonstrating the successful applications of this analogy method[9, 12-14], which not only support the practicability of this analogy method but also supply elicitation for solving the similar problem about natural fiber composites. So far, no work was reported to analyze the transverse thermal conductivity of the unidirectional natural fiber composites by using this method." @default.
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W2183024311 date "2009-01-01" @default.
W2183024311 modified "2023-09-27" @default.
W2183024311 title "AN ANALYSIS OF THERMAL INSULATION CHARACTERISTICS OF POLYMER COMPOSITES REINFORCED BY UNIDIRECTIONAL NATURAL FIBER" @default.
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