Title :
Flashover Characteristic of Epoxy Composites Filled With Different Micro-Inorganic Oxide Particles Under Nanosecond Pulse in Vacuum
Author :
Chen, Yu ; Cheng, Yonghong ; Wu, Kai ; Nelson, J. Keith ; Dissado, Leonard A. ; Li, Shengtao
Author_Institution :
State Key Lab. of Electr. Insulation & Power Equip., Xi´´an Jiaotong Univ., Xian
Abstract :
Research on the vacuum surface flashover mechanisms of insulating material under nanosecond pulses is important for the design and manufacture of high-power pulse generators. Here, the vacuum surface flashover characteristic of epoxy composites filled with different microfillers Al2O3 middot3H2O , Al2O3, BaTiO3, and TiO2 is investigated using a unipolar pulse generator (50-ns rise time and 600-ns full-width at half-maximum). In addition, their thermally stimulated depolarization current and secondary electron emission (SEE) coefficients are measured. The results show that the flashover performance does not depend just on the SEE coefficient, but that the different effects of shallow and deep traps must also to be taken into account.
Keywords :
alumina; barium compounds; filled polymers; flashover; insulating materials; pulsed power supplies; secondary electron emission; surface charging; surface discharges; thermally stimulated currents; titanium compounds; Al2O3; Al2O3H2O; BaTiO3; TiO2; deep traps; epoxy composites; flashover characteristic; high-power pulse generator design; high-power pulse generator manufacture; insulating material; microfillers; microinorganic oxide particles; nanosecond pulse; secondary electron emission coefficients; shallow traps; thermally stimulated depolarization current; unipolar pulse generator; vacuum surface flashover mechanisms; Aluminum oxide; Coatings; Conducting materials; Dielectrics and electrical insulation; Electron emission; Flashover; Powders; Power engineering and energy; Pulse generation; Voltage; Epoxy composites; microscale inorganic oxide particles; pulsed vacuum flashover; secondary electron emission (SEE); thermally stimulated current;
Journal_Title :
Plasma Science, IEEE Transactions on
DOI :
10.1109/TPS.2008.2005674
