Feasibility analysis of hexaphenoxy cyclotriphosphazene flame retardant for inhibiting electrical tree growth of epoxy resin

2021 International Conference on Electrical Materials and Power Equipment (ICEMPE) Pub Date : 2021-04-11 DOI:10.1109/ICEMPE51623.2021.9509111

Yongguang Wang, Rongjin Huang, P. Jia, Z. Miao, Hongyu Dong, Laifeng Li

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Abstract

Epoxy resin (EP) with excellent electrical and mechanical properties was widely employed as the insulation structure in high-voltage (HV) power equipment. Due to its ultra-high electric field, the inevitable electrical tree aging phenomenon often occurs in the insulation materials, which seriously threatens the safe operation of power equipment. A flame retardant such as hexaphenoxy cyclotriphosphazene (HPCTP) can reduce the intensity of heat release during the thermal decomposition of epoxy groups and consume free radicals generated by the reaction of epoxy molecular chains with oxygen, which provides a potential possibility to inhibit the tree growth in the insulation materials. In this work, the electrical treeing characteristics of the HPCTP/EP composites under high electric field was studied. It's confirmed that the tree growth of HPCTP/EP composites was significantly inhibited by HPCTP. The tree initiation voltage and voltage life of the HPCTP/EP composites are both higher than those of the pure EP. The carbonization in the tree channel was effectively inhibited by HPCTP, which weakened the electric field at the tip of the tree channel, thereby prolonging the voltage life of the HPCTP/EP composites.

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六苯基环三磷腈阻燃剂抑制环氧树脂电树生长的可行性分析

环氧树脂(EP)具有优良的电气性能和机械性能，被广泛用作高压电力设备的绝缘结构。由于其超高电场，绝缘材料中经常出现不可避免的电树老化现象，严重威胁着电力设备的安全运行。六苯基环三磷腈(HPCTP)等阻燃剂可以降低环氧基热分解过程中的放热强度，消耗环氧分子链与氧反应产生的自由基，这为抑制保温材料中的树木生长提供了潜在的可能性。本文研究了高电场作用下HPCTP/EP复合材料的电树特性。结果表明，HPCTP显著抑制了HPCTP/EP复合材料的生长。HPCTP/EP复合材料的起始电压和电压寿命均高于纯EP。HPCTP有效地抑制了树形通道中的碳化，减弱了树形通道顶端的电场，从而延长了HPCTP/EP复合材料的电压寿命。

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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2021 International Conference on Electrical Materials and Power Equipment (ICEMPE)

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