Dependence of electrical tree inception and growth on mechanical properties

Proceedings of the 3rd International Conference on Conduction and Breakdown in Solid Dielectrics Pub Date : 1989-07-03 DOI:10.1109/ICSD.1989.69254

D. Auckland, B. Varlow

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引用次数: 39

Abstract

In order to study systematically the relationship between mechanical properties and tree initiation and growth, a range of mechanical properties was obtained by the plasticization of the original polyester resin by the addition of controlled amounts of a plasticizing polyester resin (Crystic 586). It was found that an initial mechanical stress is necessary for the relatively easy initiation and growth of trees, casting light on the problem reported in earlier work of explaining the development of permanent mechanical stress in polyester specimens under the application of the electrostatic cyclical forces produced by an alternative electric field. Progressive plasticization of the polyester resin reduces the initial stress produced in the specimens during manufacture, and the initiation time is progressively increased as a consequence. Two conflicting mechanisms act in determining the dependence of tree growth on degree of plasticization. On one hand, increased plasticization reduces the internal stress and will reduce tree growth. On the other, plasticization decreases the fracture toughness, and propagation of trees by mechanical fracture will be enhanced.<>

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电树起始和生长对机械性能的依赖性

为了系统地研究机械性能与树的起始和生长之间的关系，通过添加一定量的增塑型聚酯树脂(crystal 586)对原始聚酯树脂进行增塑化，获得了一系列的机械性能。研究发现，初始机械应力对于树木相对容易的形成和生长是必要的，这有助于解释在交替电场产生的静电周期性力的应用下聚酯样品中永久机械应力的发展的早期工作中报告的问题。聚酯树脂的逐渐塑化减少了在制造过程中产生的试样的初始应力，并且启动时间逐渐增加。两种相互冲突的机制决定了树木生长对塑化程度的依赖。一方面，增加的塑化会降低内应力，从而降低树木的生长。另一方面，塑化降低了断裂韧性，增强了机械断裂的繁殖能力。

本文章由计算机程序翻译，如有差异，请以英文原文为准。

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Proceedings of the 3rd International Conference on Conduction and Breakdown in Solid Dielectrics

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