Surface flashover of oil-immersed dielectric materials in uniform and non-uniform fields

M.P. Wilson, S.J. MacGregor, M.J. Given, I. Timoshkin, M.A. Sinclair, K.J. Thomas, J. Lehr

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Abstract

The applied electrical fields required to initiate surface flashover of different types of dielectric material immersed in insulating oil have been investigated, by applying impulses of increasing peak voltage until surface flashover occurred. The behavior of the materials in repeatedly over-volted gaps was also analyzed in terms of breakdown mode (some bulk sample breakdown behaviour was witnessed in this regime), time to breakdown, and breakdown voltage. Cylindrical samples of polypropylene, low-density polyethylene, ultra-high molecular weight polyethylene, and Rexolite, were held between two electrodes immersed in insulating oil, and subjected to average applied electrical fields up to 870 kV/cm. Tests were performed in both uniform- and non-uniform-fields, and with different sample topologies. In applied field measurements, polypropylene required the highest levels of average applied field to initiate flashover in all electrode configurations tested, settling at similar to 600 kV/cm in uniform fields, and similar to 325 kV/cm in non-uniform fields. In over-volted point-plane gaps, ultra-high molecular weight polyethylene exhibited the longest pre-breakdown delay times. The results will provide comparative data for system designers for the appropriate choice of dielectric materials to act as insulators for high-voltage, pulsed-power machines.
Original languageEnglish
Pages (from-to)1028-1036
Number of pages9
JournalIEEE Transactions on Dielectrics and Electrical Insulation
Volume16
Issue number4
DOIs
Publication statusPublished - 28 Aug 2009

Keywords

  • flashover
  • surface discharges
  • dielectric materials
  • dielectric breakdown
  • oil insulation
  • plastics

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