The Scrutiny of the Insulation Breakdown Strength for the Nanocomposite Oxide Doped Epoxy Resin Insulator with Different Electrodes by Using Positive Impulse Voltage

Mingkhouan Xayyavong; Kittipong Tonmitr; Norrawit Tonmitr; Eiji Kaneko

doi:10.4028/www.scientific.net/KEM.705.63

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HomeKey Engineering MaterialsKey Engineering Materials Vol. 705The Scrutiny of the Insulation Breakdown Strength...

The Scrutiny of the Insulation Breakdown Strength for the Nanocomposite Oxide Doped Epoxy Resin Insulator with Different Electrodes by Using Positive Impulse Voltage

Abstract:

This research presents the ratio of doping nanocomposite oxides in dielectric materials for increasing the efficiency strength and endurance voltage. Tests were conducted and analyzed the characteristics of epoxy nanozinc oxides. By using positive standard impulse voltage abilities of nanocomposite oxides were used as electrical insulators-epoxy resin doped with zinc oxides nanocomposite in ratios of 0, 5, 10, 15, and 20% by weight. And the design of electrodes embeds in the specimens with 4 types of electrode, as needle electrode, point electrode, spherical electrode and the partial spherical electrode. When adjusted the impulse voltage level of 75kV to the specimen immersed in transformer oil. The experiment aforementioned to investigate the ratios damages on insulator surfaces and the number of breakdowns. The microscopes with magnification levels of 20-800X were used to view the damages on insulator surfaces. Results, it was found that regarding specimens used for doping an epoxy resin with zinc oxides nanocomposite in a ratio of 5% had high withstand insulator with electrode types. The partial spherical electrode tested with positive impulse standard voltage has destructive distance lower damage than other electrode types.

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Periodical:

Key Engineering Materials (Volume 705)

Pages:

63-67

DOI:

https://doi.org/10.4028/www.scientific.net/KEM.705.63

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Online since:

August 2016

Authors:

Mingkhouan Xayyavong*, Kittipong Tonmitr, Norrawit Tonmitr, Eiji Kaneko

Keywords:

Destructive Distance, Doped within Zinc-Oxide, Type Electrodes, Withstand Insulator

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References

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