含各种纳米填料的环氧树脂中的空间电荷形成

A. Hajiyiannis, G. Chen, C. Zhang, G. Stevens
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引用次数: 16

摘要

人们普遍预计,纳米复合材料技术的最新进展与传统和新型树脂体系的结合,可能会创造出具有增强的电学、热学和机械性能的材料。人们已经认识到,电场下的电荷动力学在决定材料的电学性能方面起着重要作用。在本研究中,脉冲电声(PEA)技术被用于测量负载不同纳米填料的环氧硬石膏样品中的空间电荷。在~27 kV/mm的电压下,测量了干湿样品的空间电荷特性。除了不同的电荷动力学外,人们还注意到纳米复合材料的电学性能在水分存在下也会受到影响。在较低的油田进行了进一步的测试,以揭示是否发生了不同的机制。
本文章由计算机程序翻译,如有差异,请以英文原文为准。
Space Charge Formation in Epoxy Resin Including Various Nanofillers
It has been widely anticipated that the combination of recent advances in nanocomposites technology with traditional and novel resin systems may create materials with enhanced electrical, thermal and mechanical properties. It has been recognised that charge dynamics under an electric field play an important role in determining the electrical performance of a material. In this research, the pulsed electroacoustic (PEA) technique has been used to measure space charge in epoxy anhydrite samples loaded with various nano-fillers. Space charge characteristics in both dried and wet samples have been measured at ~27 kV/mm. In addition to different charge dynamics, it has also been noticed that the electrical performance of nanocomposites has been affected in the presence of moisture. Further tests have been carried out at a lower field to reveal if different mechanisms take place.
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