Nonlinear dielectric response and conductivity characteristics of epoxy resin in high voltage AC electric field

• Published in: Journal of physics. D, Applied physics Vol. 58; no. 1; pp. 15301 - 15311
• Main Authors: Wang, Weiwang, Li, Ruizhe, Hu, Leiyu, Jiang, Qihang, Li, Shengtao
• Format: Journal Article
• Language: English
• Published: IOP Publishing 06.01.2025
• Subjects: AC conductivity; dielectric response; epoxy resin; free volume; high frequency voltage; ionic process
• ISSN: 0022-3727; 1361-6463
• DOI: 10.1088/1361-6463/ad7d9e

Abstract High-voltage dielectric and AC conduction behaviors of epoxy resin (EP) insulation are beneficial for the design and application of solid-state power electronic devices. This study investigates the nonlinear dielectric response and AC conduction characteristics of EP. The dielectric relaxation characteristics, including permittivity and AC conductivity of the EP samples, were investigated using high-voltage dielectric spectroscopy and the ionic polarization model. The results demonstrate a nonlinear increase in the relative permittivity and AC conductivity concerning the AC electric field. The increase in AC conduction under a high-frequency electric field is attributed to the reduction in the threshold field for charge injection caused by elevated temperatures. Considering the dielectric response and carrier hopping, it is evident that the nonlinear dielectric response of EP primarily originates from the ionic process under high electric fields. Ionic polarization, in conjunction with ion-hopping conduction, enhances the dielectric loss at high frequencies and electric fields, thereby facilitating the nonlinear conversion of AC conduction. The equivalent free volume is likely to increase in high-frequency fields. This phenomenon leads to an increase in AC conduction and even dielectric breakdown. This study offers a pivotal theoretical framework for the design and application of high-frequency insulation.