聚酰亚胺
电介质
介电强度
材料科学
电场
氮化硼
击穿电压
复合材料
复合数
聚合物
局部放电
绝缘系统
日冕(行星地质学)
工程物理
电压
电气故障
电气工程
光电子学
高压
电晕放电
场强
绝缘体(电)
数码产品
电晕环
填料(材料)
作者
Wenchao Zhang,Yu Teng,Yong Zhang,Dong Yue,Xiaoxing Cheng,Yunpeng Liu,Yu Feng
标识
DOI:10.1109/tdei.2025.3610808
摘要
Polymer materials play an important role in power electronics and electrical insulation systems. Despite significant efforts in research to enhance their insulation performance, improving the dielectric and insulation properties of polymer dielectrics remains a challenging task. In this work, a method was introduced to enhance the breakdown strength and corona endurance life of polyimide films by adding hydroxylated boron nitride/polyethyleneimine nanosheets. The breakdown strength of polyimide based composite film is significantly enhanced (661 kV/mm), and the corona endurance life reaches 40 h. The improvement in breakdown strength is mainly attributed to the wide bandgap characteristics of BNNS. And the hydroxylated boron nitride nanosheets have excellent dispersibility in the composite film. The improvement of corona endurance life is due to the formation of a reverse built-in electric field inside the filler of BOP under low voltage conditions, which is opposite to the direction of the external electric field. The built-in electric field can partially counteract the external electric field, reducing the number of ionized electrons generated during the secondary collision process, thereby extending the corona endurance life. In addition, the two-dimensional nanosheets form a barrier layer, hindering the electrical breakdown path and further improving the insulation performance. The research results provide a new design approach for improving the insulation performance of polymer composite films.
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