Add to ORKGElectrical trees developed using point-plane samples have been investigated under three different voltage conditions: AC, AC with positive DC bias, and AC with negative DC bias. Visual observations mainly indicate two types of electrical tree progression from initiation to breakdown: “forward and backward” (FB) trees and "forward" (F) trees. FB trees can be observed in AC tests, while F trees occur in AC with DC bias tests. The difference between AC with negative DC bias and AC with positive DC bias is the growth of a rapid long branch prior to breakdown under negative DC bias conditions. Based on the pulse sequence analysis (PSA) technique applied to the PD data associated with electrical tree growth, the findings confirm that PSA curves u...
Abstract — The partial discharge activity during propagation of electrical treeing in epoxy resin is...
The growth mechanism of electrical tree in high voltage and extra high voltage dielectric system is ...
Electrical tree is a serious threat to silicone rubber (SIR) insulation and can even cause breakdown...
Electrical trees developed using point-plane samples have been investigated under three different vo...
Pulse Sequence Analysis (PSA) was carried on PD data from electrical trees grown in flexible epoxy r...
Electrical treeing is a long-term degradation mechanism in polymeric insulation, which can lead to e...
Previous observations on electrical tree growth in epoxy resins has shown that different types of tr...
This paper presents early results from an experimental study of electrical treeing on commercially a...
Electrical treeing is a degradation phenomenon in solid dielectric material resulting from high and ...
The aim of this paper is to identify promising indicators for prognosis of electrical treeing. Both ...
Electrical tree growth is a well-documented process leading to failure of high voltage polymeric ins...
Partial discharge (PD) data obtained from electrical trees and void experiments were analyzed. Sever...
In the framework of elaborating a methodology for testing the resistance to electrical treeing of po...
Electrical treeing is a significant degradation mechanism in polymers that can lead to premature fai...
This paper investigates the effect of harmonic pollution on the Pulse Sequence Analysis (PSA) patter...
Abstract — The partial discharge activity during propagation of electrical treeing in epoxy resin is...
The growth mechanism of electrical tree in high voltage and extra high voltage dielectric system is ...
Electrical tree is a serious threat to silicone rubber (SIR) insulation and can even cause breakdown...
Electrical trees developed using point-plane samples have been investigated under three different vo...
Pulse Sequence Analysis (PSA) was carried on PD data from electrical trees grown in flexible epoxy r...
Electrical treeing is a long-term degradation mechanism in polymeric insulation, which can lead to e...
Previous observations on electrical tree growth in epoxy resins has shown that different types of tr...
This paper presents early results from an experimental study of electrical treeing on commercially a...
Electrical treeing is a degradation phenomenon in solid dielectric material resulting from high and ...
The aim of this paper is to identify promising indicators for prognosis of electrical treeing. Both ...
Electrical tree growth is a well-documented process leading to failure of high voltage polymeric ins...
Partial discharge (PD) data obtained from electrical trees and void experiments were analyzed. Sever...
In the framework of elaborating a methodology for testing the resistance to electrical treeing of po...
Electrical treeing is a significant degradation mechanism in polymers that can lead to premature fai...
This paper investigates the effect of harmonic pollution on the Pulse Sequence Analysis (PSA) patter...
Abstract — The partial discharge activity during propagation of electrical treeing in epoxy resin is...
The growth mechanism of electrical tree in high voltage and extra high voltage dielectric system is ...
Electrical tree is a serious threat to silicone rubber (SIR) insulation and can even cause breakdown...