Degree Type

Thesis

Date of Award

2012

Degree Name

Master of Science

Department

Materials Science and Engineering

First Advisor

Nicola Bowler

Abstract

Abstract

The violent event of a short-circuit leads to short-term exposure of circuit breaker components to extremely high current, causing thermal degradation, vaporization and deformation of some components and the deposition of surface contaminants. After short-circuit, the leakage current carried by the breaker, when voltage is applied, increases dramatically but must remain below a certain threshold to meet acceptance criteria. The goal of this study is to identify the primary leakage current pathways through the breaker following short-circuit and to elucidate the role of a protective coating, loaded with naturally-occurring clay nanoparticles, on improving the electrical performance of the breaker. A Megger insulation tester was used to test both virgin and short-circuited polycarbonate (PC) samples taken from the base of the circuit breaker. Further, direct-current and alternating-current conductivity were measured on PC samples by using a Keithley high-resistance meter and broadband dielectric spectroscopy, respectively. These tests established that the leakage current pathway is primarily through the surface contaminants deposited on the PC during the short-circuit event. Scanning electron microscopy (SEM) and energy-dispersive X-ray spectroscopy (EDS) were employed to identify the composition and distribution of the surface contaminants. These were found to contain significant amounts of metal, accounting for the observed increase in leakage current through the breaker following short-circuit. The protective coating was studied by Fourier transform infrared spectroscopy, SEM and EDS, revealing the critical role played by insulating nanoclay in improving dielectric performance of a circuit breaker after short-circuit.

Copyright Owner

Xinming Zhang

Language

en

Date Available

2012-10-31

File Format

application/pdf

File Size

88 pages

Share

COinS