The influence of barium titanate as a filler in impregnating epoxy resin on chosen electrical parameters of obtained material

Kasprzak, W.; Nadolny, Z.; Walczak, K.; Siodła, K.; Sikorski, W.; Jóźwiak, K.; Paściak, G.; Moroń, L.

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Tytuł artykułu

The influence of barium titanate as a filler in impregnating epoxy resin on chosen electrical parameters of obtained material

Autorzy

Kasprzak W. , Nadolny Z. , Walczak K. , Siodła K. , Sikorski W. , Jóźwiak K. , Paściak G. , Moroń L.

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Abstrakty

The paper describes the influence of barium titanate BaTiO3 used as a filler in impregnating epoxy resin on electrical parameters of obtained material. The results of computer simulation of electric field intensity distribution in area of 220 kV ac composite insulator show that in order to reduce the maximum value of this field it is necessary to use the rod with the highest possible permittivity. It was assumed that the increase of rod permittivity is possible by doping the epoxy resin, being one of glass-epoxy rod components, with a filler having high permittivity. Barium titanate BaTiO3 in micro- and nanograins was used as a filler. Presumably, such a change in material structure, may negatively influence other electrical parameters of the material, important in composite insulators construction. In order to check the filler dispersion in epoxy matrix, microscopic observations of fractions of the obtained materials were performed. In a wide range of frequencies, the permittivity and volume resistivity of the materials were determined. The inception voltage of partial discharges on surface of materials was determined by the electric, acoustic and antenna methods.

Słowa kluczowe

nanofillers BaTiO3 epoxy resin permittivity

Wydawca

De Gruyter

Czasopismo

Materials Science Poland

Rocznik

2009

Tom

Vol. 27, No. 4/2

Strony

1219--1227

Opis fizyczny

Bibliogr. 13 poz.

Twórcy

autor

Kasprzak W.

autor

Nadolny Z.

autor

Walczak K.

autor

Siodła K.

autor

Sikorski W.

autor

Jóźwiak K.

autor

Paściak G.

autor

Moroń L.

Poznan University of Technology

Bibliografia

[1] BROSSEAU C., TALBOT P., IEEE Trans. Diel. Electr. Ins., 11 (2004), 819.
[2] CAO Y., IRWIN P.C., YOUNSI K., IEEE Trans. Diel. Electr. Ins., 11 (2004), 797.
[3] DISSADO L.A., FOTHERGILL J.C., IEEE Trans. Diel. Electr. Ins., 11 (2004), 737.
[4] FRECHETTE M.F., TRUDEAU M.L., IEEE Trans. Diel. Electr. Ins., 11 (2004), 808.
[5] JURCZYK M., JAKUBOWICZ J., IEEE Trans. Diel. Electr. Ins., 11 (2004), 833.
[6] LEI L. and others, Hydrophobicity of RTV Nanocomposites under Chemical Environment, Proc. 14th International Symposium on High Voltage Engineering (ISH’2005), Beijing, China, D-22.
[7] LEWIS T.J., IEEE Trans. Diel. Electr. Ins., 11 (2004), 739.
[8] ORŁOWSKA S., BEROUAL A., FLESZYŃSKI J., J. Phys. D: Appl. Phys. 35 (2002), 2656.
[9] ORŁOWSKA S., BEROUAL A., FLESZYŃSKI J., J. Phys. D: Appl. Phys. 35 (2002), 3101.
[10] ORŁOWSKA S., Dielectric Composite Materials Characterisation Using Boundary Integral Method, XI Int. Workshop on High Voltage Engineering, Karpacz, 2002, 23.
[11] ROY M. and others, IEEE Trans. Diel. Electr. Ins., 12 (2005), 629.
[12] MORAŃDA H., SZTOLCMAN M., WALCZAK K., MOŚCICKA-GRZESIAK H., Enlargement of Fingerprint in Procedure of Defects Recognition in Oil-Paper Insulation Using Time Parameters of PD, Proc. 14th Int. Symp. High Voltage Engineering, ISH ’05, Beijing, China, G-056, 2005.
[13] SIKORSKI W., SIODŁA K., Identification of Partial Discharge Sources in High Voltage Insulating Systems Using Acoustic Emission Method, Proc. 14th Int. Symp. High Voltage Engineering, ISH ’05, Beijing, China, G-009, 2005.

Typ dokumentu

Bibliografia

Identyfikator YADDA

bwmeta1.element.baztech-article-BPW7-0012-0028