环氧树脂纤维中热导率的结构诱导变化。

Structure-induced variation of thermal conductivity in epoxy resin fibers.

机构信息

Shenzhen Institutes of Advanced Technology, Chinese Academy of Sciences, Shenzhen 518055, China.

出版信息

Nanoscale. 2017 Aug 3;9(30):10585-10589. doi: 10.1039/c7nr03717a.

Abstract

The ability to control thermal conductivity is important in a wide variety of applications, especially in heat removal, heat insulation, and thermoelectric energy conversion. Herein, we reveal that the thermal conductivity of epoxy resin fibers increases on decreasing the fiber diameter and surpasses the bulk value (0.25 W m K at 300 K) for the fiber with a diameter of 211 nm. The variation of thermal conductivity in epoxy resin fibers can likely be attributed to their microstructure change-enhanced interface phonon scattering between amorphous and crystalline regions and the enhanced alignment of the molecular chain orientation.

摘要

在各种应用中，控制热导率的能力非常重要，特别是在热去除、隔热和热电能量转换方面。在此，我们发现环氧树脂纤维的热导率随着纤维直径的减小而增加，并超过了直径为 211nm 的纤维的体热导率值（0.25 W m K，在 300 K 时）。环氧树脂纤维热导率的变化可能归因于其微结构变化，增强了非晶态和晶态区域之间的界面声子散射，以及分子链取向的增强排列。

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环氧树脂纤维中热导率的结构诱导变化。

Structure-induced variation of thermal conductivity in epoxy resin fibers.

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