不同填料取向聚合物基微/纳米复合材料中的电荷输运和直流击穿

Xuri Xu, Yu Gao, Jing Li, Zheng Song, Jinjing Peng, B. Du
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引用次数: 2

摘要

六方氮化硼(h-BN)被广泛认为是一种填料,以提高聚合物材料的导热性。作为二维材料,氢氮化硼的取向会影响聚合物的绝缘性能。因此,了解填料取向对聚合物绝缘性能的影响是非常重要的。本文假设h-BN填料的取向平行、垂直于样品表面法向量或随机分布在基体中,并讨论了不同样品中的电荷输运行为和直流击穿强度。为了更好地理解取向效应,采用双极电荷输运(BCT)模型对微纳复合材料中的电荷输运和击穿行为进行了估计。结果表明,填料垂直分布的聚合物捕获电荷密度最大,且填料垂直取向的聚合物最先发生击穿。结果表明,填料取向平行的材料有望提高聚合物的绝缘性能。
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Charge Transport and DC Breakdown in Polymer Based Micro/Nano-Composite with Different Filler Orientations
Hexagonal boron nitride (h-BN) has been extensively considered as filler in order to improve thermal conductivity of the polymeric materials. As a 2D material, the orientation of h-BN will affect the insulation property of the polymer. Therefore, it is important to understand the influence of filler orientations on the insulation performance of the polymer. In this work, the orientations of the h-BN fillers were assumed to be parallel, perpendicular to the normal vector of sample surface or randomly distributed in the matrix, and the charge transport behavior and DC breakdown strength in different samples were discussed. The bipolar charge transport (BCT) model has been adopted to estimate the charge transport and the breakdown behavior in the micro/nano-composite with the purpose of better understanding the orientation effect. The obtained results indicated that the density of trapped charge was the largest in the sample with filler distributing perpendicularly compared with others and the breakdown of the polymer with vertical filler orientation could occur first. It is suggested that the material with the parallel orientation of the filler is expected to improve the insulation performance of the polymer.
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