Abstract
Electrical treeing is a pre-breakdown mechanism, and is the responsiblefor the long-term degradation of polymer insulation. This paper has beenenhanced both the life-time of tree propagation to breakdown and thetree growth rate of electrical tree propagation by adding variousamounts of nanoparticles as Clay, Silica, ZnO, and Al2O3 to variousindustrial materials CT200 Epoxy Resin, and LY/HY-5052 Epoxy Resin.This research has focused on the development of nanocompositematerials with electrical tree growth resistance superior to the unfilledmatrix, and has stressed particularly the effect of filler volume fractionon the breakdown resistance. Finally, this research aims to present asystematic and comparative study about the effect of addingnanoparticles to dielectric insulation, and to understand the role of thesenanoparticles, Clay, Silica, ZnO, and Al2O3 particles in the CT200Epoxy Resin and LY/HY-5052 Epoxy Resin which can made significantimprovement in breakdown resistance, life-time of insulation anddecreasing the tree growth rate of electrical tree propagation.
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