Enhanced Performance of Tree Initiation V-t Characteristics of Epoxy/Clay Nanocomposite in Comparison with Neat Epoxy Resin

S. Raetzke, Y. Ohki, T. Imai, J. Kindersberger, T. Tanaka
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引用次数: 16

Abstract

Tree initiation behavior of an epoxy nanocomposite with 5 wt % nanoclay (layered silicate) was investigated in comparison to neat epoxy resin without fillers. To shorten the time for experiments, 600 Hz was used instead of 60 Hz, as acceleration for tree initiation had been confirmed at 10 kVrms and 14 kVrms between the two frequencies. V-t characteristics for tree initiation rather than tree growth to bridge the electrodes were obtained for conventional type of treeing specimens with an embedded steel needle subjected to voltages from 2 kVrms to 14 kVrms. As a result, the n value in V-n t characteristics was confirmed to be 5.5 for neat epoxy and larger than 7 for nanocomposite. It was clarified that tree initiation V-t characteristics were improved by approximately one order of magnitude for the epoxy/nanoclay composite compared to the neat epoxy resin. To be precise, such an enhancement factor is one order at high field but even two orders at low field. Formed trees are field dependent. They are rather thick and short in shape at low field, but thin and long at high field. It is concluded from the analysis on the basis of interfacial models and other studies that initial trees are formed due to a PD erosion process at low field during a long time, but due to dielectric breakdown including charge trapping at high field for a short time.
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环氧树脂/粘土纳米复合材料树状起始V-t特性与纯环氧树脂的比较
研究了含5 wt %纳米粘土(层状硅酸盐)的环氧纳米复合材料与不含填料的纯环氧树脂的树状起始行为。为了缩短实验时间,使用600 Hz而不是60 Hz,因为在两个频率之间的10 kVrms和14 kVrms之间已经证实了树启动的加速度。在2kvrms至14kvrms的电压下,通过嵌入钢针的传统类型的树形试样获得了树形起始而不是树形生长的V-t特性。结果表明,纯环氧树脂的V-n - t特性的n值为5.5,纳米复合材料的n值大于7。结果表明,与纯环氧树脂相比,环氧树脂/纳米粘土复合材料的树起始V-t特性提高了大约一个数量级。准确地说,这种增强因子在高场是一个数量级,在低场甚至是两个数量级。形成的树依赖于场地。它们在低处长得又粗又短,在高处长得又细又长。基于界面模型等研究分析得出,初始树的形成是低场下长时间的PD侵蚀过程,而高场下短时间的介电击穿包括电荷捕获过程。
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