Comparison of the effects of nanofiller materials on the dielectric properties of epoxy nanocomposites

J. Katayama, N. Fuse, M. Kozako, T. Tanaka, Y. Ohki
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引用次数: 4

Abstract

Composites of organic polymers and well-dispersed nm-sized inorganic fillers, called polymer nanocomposites (NCs), have been attracting much attention as new electrical insulating materials. In this paper, experimental results on the typical dielectric properties, namely, complex permittivity (εr' and εr"), conductivity, and thermally stimulated depolarization current (TSDC) are evaluated for bisphenol-A epoxy resin and its NCs with boehmite alumina, titania, and silica. The increase in εr' and εr" and the magnitudes of the TSDC peaks as well as the increase in conductivity appear more significantly in the NCs with boehmite alumina and titania and less significantly in the NCs with silica than in epoxy resin. This indicates that the silica nanofillers give the best results as far as these properties are concerned. The suppression of molecular motion by the addition of nanofillers seems to work effectively in the case of silica, while the nanofiller addition is likely to accelerate the motion of ionic carriers and/or that of dipoles in the case of boehmite alumina and titania.
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纳米填充材料对环氧纳米复合材料介电性能影响的比较
高分子纳米复合材料是由有机聚合物和分散良好的纳米级无机填料组成的复合材料,是一种新型的电绝缘材料。本文评价了双酚a型环氧树脂及其含薄铝石、氧化铝、二氧化钛和二氧化硅的环氧树脂的典型介电性能,即复介电常数(εr′和εr”)、电导率和热激退极化电流(TSDC)的实验结果。与环氧树脂相比,添加薄铝石、氧化铝和二氧化钛的纳米材料的εr′和εr”、TSDC峰大小的增加更为显著,而添加二氧化硅的纳米材料的εr′和εr”以及电导率的增加不那么显著。这表明二氧化硅纳米填料提供了最好的结果,就这些性能而言。在二氧化硅中,通过添加纳米填料抑制分子运动似乎有效,而在薄铝铝和二氧化钛中,添加纳米填料可能会加速离子载体和/或偶极子的运动。
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