关于中压配电器所用材料的老化退化问题

Energies Pub Date : 2024-07-11 DOI:10.3390/en17143418
G. Popa, Dimitar Aleksiev Nikolov, C. Diniș
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引用次数: 0

摘要

汽油发动机点火装置中的中压部件含有绝缘材料,这些材料会随着时间的推移而失去其特性。本文的目的是测量和分析汽车点火装置中用于中压分配器的材料(三种材料)在几个运行周期内的绝缘电阻、介质吸收比和极化指数。实验使用了旧的(运行数万公里,有些表面已清洗)和新的中压分电器,并使用兆欧表测量了不同测试电压下中央端子和输出端子之间随时间变化的绝缘电阻。分配器的绝缘电阻取决于使用情况:旧分配器的绝缘电阻值为几十 GΩ (例如高达 100 GΩ),而新分配器的绝缘电阻值则为 TΩ (例如 4-7 TΩ)。对于同一个分配器,使用的分配器越多,终端之间的测量值与平均值之间的差异就越大(二手分配器的差异为 87%,新分配器的差异为 2%)。对于新的或使用较少的分配器,介电吸收比(1.26-1.27;使用过的分配器为 0.91-0.95)和极化指数(1.15-1.25;使用过的分配器为 0.96-1.15)的数值较高。结果表明,与表面电阻相比,电绝缘材料的体积绝缘电阻非常重要,而且在清洁中压配电器的内外表面时,改善效果并不明显。
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About the Aged Degradation of the Materials Used for Medium-Voltage Distributors
The medium-voltage components in the ignition installations for gasoline engines contain electroinsulating materials that lose their properties over time. The purpose of this paper is to measure and analyze the insulation resistance, dielectric absorption ratio and polarization index of the insulation of materials (three types of materials) used for medium-voltage distributors, for several operating periods, in automotive ignition installations. Experiments were conducted with old (operation tens of thousands of km, some with surfaces that have been cleaned) and new medium-voltage distributors, and a megohmmeter was used to measure, over time, the insulation resistance between the central terminal and the output terminals at different test voltages. The insulation resistance of the distributors depends on the use: in the old ones, they have values of tens of GΩ (e.g., up to 100 GΩ) and, in the new ones, of the order of TΩ (e.g., 4–7 TΩ). The more distributors are used, for the same distributor, there are greater differences between the measurements made between terminals and the average values (87% for used distributors, respectively, 2% for new ones). For new or less used distributors, higher values were obtained for the dielectric absorption ratio (1.26–1.27; for used ones, 0.91–0.95) and polarization index (1.15–1.25; for used ones, 0.96–1.15). The results show the importance of the volume insulation resistance of the electroinsulating material compared to the surface resistance and the insignificant improvement when cleaning the internal and external surfaces of the medium-voltage distributors.
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