New approach to flashover in dielectrics based on a polarization energy relaxation mechanism

IEEE Transactions on Electrical Insulation Pub Date : 1993-08-01 DOI:10.1109/14.231522
G. Blaise
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引用次数: 59

Abstract

The polaron concept is used to describe trapping of charge in a dielectric medium. It is shown that trapping is associated with defects identified as being due to a local decrease of the electronic polarizability. The polarization energy around a charge is estimated, using a self-consistent calculation of the local field. In nonpolar dielectrics this energy is 5 eV per charge, in the limit of validity of the Clausius-Mosotti relation. In polar dielectrics it can be much higher. A flashover process is proposed as resulting from the destabilization of the space charge by a variety of perturbations (electrical, mechanical, thermal), followed by the mechanical relaxation of the lattice, initially polarized by the charge. >
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基于极化能松弛机制的介质闪络新方法
极化子的概念是用来描述介电介质中电荷的俘获。结果表明,由于电子极化率的局部降低,俘获与缺陷有关。利用局部场的自洽计算,估计了电荷周围的极化能。在非极性电介质中,该能量为每电荷5ev,在克劳修斯-莫索蒂关系的有效极限内。在极性电介质中,它可以高得多。闪络过程是由各种扰动(电的、机械的、热的)引起的空间电荷的不稳定引起的,随后是晶格的机械松弛,最初由电荷极化。>
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IEEE Transactions on Electrical Insulation
IEEE Transactions on Electrical Insulation
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