Study on the AC Flashover Voltage of Corona-aged Epoxy Resin Insulating Surfaces under Contamination and Condensation

In this paper, bisphenol A epoxy resin (E-51) as A group, Methyl tetrahydrodiphosphonic anhydride (MTHPA) as A curing agent, and acid anhydride crosslinking system epoxy resin samples were prepared. By establishing a condensation discharge platform, the surface condensation of epoxy resin was studie...

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Bibliographic Details
Published in:IEEE transactions on dielectrics and electrical insulation 2023-06, Vol.30 (3), p.1-1
Main Authors: Bi, Maoqiang, Tan, Haonan, Peng, Hao, Wen, Ya, Jiang, Tianyan, Yang, Zhangang
Format: Article
Language:English
Subjects:
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Acidic oxides
Aging
Bisphenol A
Condensates
Condensation resins
Contact angle
Crosslinking
Curing agents
Decomposition
Electric contacts
Electric potential
Electrical properties
Electrodes
Electron microscopes
Epoxy resins
Flashover
Humidity
Infrared analysis
Insulation
Relative humidity
Surface flashover
Switchgear
Temperature gradients
Voltage
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Summary:In this paper, bisphenol A epoxy resin (E-51) as A group, Methyl tetrahydrodiphosphonic anhydride (MTHPA) as A curing agent, and acid anhydride crosslinking system epoxy resin samples were prepared. By establishing a condensation discharge platform, the surface condensation of epoxy resin was studied by temperature, relative humidity, and filth degree. The influence of hygrothermal corona aging on the surface flashover voltage of epoxy resin in the condensation state was analyzed by static contact Angle, scanning electron microscope, and infrared spectrum. The results showed that with the increase of temperature difference, relative humidity, and fouling degree, the surface condensation quality of epoxy resin also increased, and the temperature difference had the greatest effect on the surface condensation quality. With the increase of aging time, the static contact Angle decreased from 83.8° to 36.7°. At the same time, a large number of cracks appeared on the surface of the material, accompanied by skin shedding, and the surface decomposition and carbonization phenomenon occurred. The decomposition of -COOR group and -C=O group inside epoxy resin is accompanied by the generation of -OH and -COOH groups. The surface flashover characteristics of epoxy resin are positively correlated with the content of water molecules in the air, and the hydrophilic -OH and -COOH groups lead to the degradation of its electrical properties. The research results of this paper can provide reference for the operation and maintenance of switchgear with epoxy resin as the main insulation structure.
ISSN:1070-9878
1558-4135
DOI:10.1109/TDEI.2023.3262221