Space charge accumulation and DC breakdown strength of epoxy nanocomposites
Space charge accumulation and DC breakdown strength of epoxy nanocomposites
Introduction of inorganic nanoparticles to epoxy composite material has been demonstrated to have a significant advantage in electrical insulation performance for use in power apparatus. In order to apply nanocomposites to solid insulators in DC power equipment, it is important to evaluate the electrical insulation properties of nanocomposites under DC high voltage. It is well understood that space charges accumulating inside insulating materials can lead to premature failure. In this work, the space charge and DC breakdown of epoxy nanocomposites with nano-BN or TiO2 were investigated. The space charge accumulation can locally increase the effective electric field strength in a region of the insulator and thus leads to a dielectric breakdown. It was previously demonstrated that specific types of nanocomposites can reduce space charge accumulation. The nanocomposites prepared in this study do not suppress space charge accumulation, which could be due to the presence of micrometric-size agglomerates in the nanocomposites prepared in this study. Furthermore, the effect of the agglomerates on space charge accumulation and DC breakdown strength depends on the nanofiller.
DC breakdown, epoxy, nanocomposite, space charge, breakdown, DC
Hirai, Motoshi
22c0cba5-1302-4025-9da5-f5ffea01bbae
Kurimoto, Muneaki
baab35e4-e4b7-4818-84b3-b7bcec6b2359
Kawashima, Tomohiro
ef90f40c-fdfa-42e9-bd00-d85bf4c84550
Chaudhary, Sunny
25f0d213-03ef-4909-8cfc-29a8498aa28f
Andritsch, Thomas
8681e640-e584-424e-a1f1-0d8b713de01c
12 August 2024
Hirai, Motoshi
22c0cba5-1302-4025-9da5-f5ffea01bbae
Kurimoto, Muneaki
baab35e4-e4b7-4818-84b3-b7bcec6b2359
Kawashima, Tomohiro
ef90f40c-fdfa-42e9-bd00-d85bf4c84550
Chaudhary, Sunny
25f0d213-03ef-4909-8cfc-29a8498aa28f
Andritsch, Thomas
8681e640-e584-424e-a1f1-0d8b713de01c
Hirai, Motoshi, Kurimoto, Muneaki, Kawashima, Tomohiro, Chaudhary, Sunny and Andritsch, Thomas
(2024)
Space charge accumulation and DC breakdown strength of epoxy nanocomposites.
In Proceedings of the 2024 IEEE 5th International Conference on Dielectrics, ICD 2024.
IEEE.
4 pp
.
(doi:10.1109/ICD59037.2024.10613134).
Record type:
Conference or Workshop Item
(Paper)
Abstract
Introduction of inorganic nanoparticles to epoxy composite material has been demonstrated to have a significant advantage in electrical insulation performance for use in power apparatus. In order to apply nanocomposites to solid insulators in DC power equipment, it is important to evaluate the electrical insulation properties of nanocomposites under DC high voltage. It is well understood that space charges accumulating inside insulating materials can lead to premature failure. In this work, the space charge and DC breakdown of epoxy nanocomposites with nano-BN or TiO2 were investigated. The space charge accumulation can locally increase the effective electric field strength in a region of the insulator and thus leads to a dielectric breakdown. It was previously demonstrated that specific types of nanocomposites can reduce space charge accumulation. The nanocomposites prepared in this study do not suppress space charge accumulation, which could be due to the presence of micrometric-size agglomerates in the nanocomposites prepared in this study. Furthermore, the effect of the agglomerates on space charge accumulation and DC breakdown strength depends on the nanofiller.
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More information
Published date: 12 August 2024
Venue - Dates:
2024 IEEE 5th International Conference on Dielectrics (ICD), , Toulouse, France, 2024-06-30 - 2024-07-04
Keywords:
DC breakdown, epoxy, nanocomposite, space charge, breakdown, DC
Identifiers
Local EPrints ID: 493426
URI: http://eprints.soton.ac.uk/id/eprint/493426
PURE UUID: ef5c3cdd-c38d-4172-83f1-c65347de9d94
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Date deposited: 03 Sep 2024 16:31
Last modified: 14 Dec 2024 03:09
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Contributors
Author:
Motoshi Hirai
Author:
Muneaki Kurimoto
Author:
Tomohiro Kawashima
Author:
Sunny Chaudhary
Author:
Thomas Andritsch
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