通过定制烧结工艺优化线路避雷器结构,获得了优异的氧化锌压敏电阻电性能

Pengfei Meng, Wei Cao, Chao Chen, Shuai Wan, Heng Xu, Jun Hu, Jinliang He
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引用次数: 0

摘要

通过调整烧结工艺,优化了掺杂铝和铟的氧化锌压敏电阻的优良电性能。进行了表面形貌、非线性伏安特性、电容电压特性和介电特性分析。在一定的铝、铟浓度下,随着烧结时间从0.5 h延长到2.5 h,样品的平均晶粒尺寸($d$)增大,电压梯度($E_{1\text{mA}}$)从602.4 V/mm减小到356.7 V/mm。随着烧结时间从0.5 h延长至2.0 h,烧结压敏电阻在雷击电流($8/20\ \mu\ mathm {s}$)下的剩余电压降低。当烧结时间为1.5 h时,ZnO压敏电阻表现出优异的性能,在1ma DC下的参考电压为479.3 V/mm。当在线路避雷器中组装时,得到的高压梯度ZnO压敏电阻可以减少其长度和残余电压,从而使线路避雷器与绝缘子更好地协调。该研究对优化线路避雷器配置、提高电力系统稳定性具有重要意义。
本文章由计算机程序翻译,如有差异,请以英文原文为准。
Excellent electrical properties of zinc-oxide varistors by tailoring sintering process for optimizing line-arrester configuration
We optimized the excellent electrical performance of zinc-oxide (ZnO) varistors doping of aluminum and indium by tailoring the sintering process. The surface morphology, nonlinear volt ampere properties, capacitance–voltage characteristics, and dielectric analyses were carried out. At a given aluminum and indium concentration, the average sample grain size ($d$) increased as lengthening sintering time from 0.5 to 2.5 h. The voltage gradient ($E_{1\text{mA}}$) decreased from 602.4 V/mm to 356.7 V/mm. The residual voltage of the sintered varistors at the lightning impulse current ($8/20\ \mu\mathrm{s}$) decreased as the samples sintering holding time extended from 0.5 to 2.0 h. When the ZnO varistor was sintered for 1.5 h, the samples showed an excellent performance, with a reference voltage of 479.3 V/mm at 1 mA DC. When assembled in the line surge arresters, the obtained high-voltage-gradient ZnO varistors can decrease their length and residual voltage, which allows for better coordination of the line surge arrester with the insulators. This study has great significance to optimize line-arrester configurations and improve power-system stability.
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