Title :
Radiation-induced electrical discharges in complex structures
Author :
Frederickson, A.R. ; Levy, Leon ; Enloe, C.L.
Author_Institution :
Geophys. Lab., Hanscom AFB, MA, USA
fDate :
12/1/1992 12:00:00 AM
Abstract :
Polyethylene terephthalate (PET) foils were exposed to 25-keV electron beams of 3 nA/cm2, which has been known to charge the PET surface to -15 kV or more and to produce rapid pulse discharges sufficient to lower the magnitude of the surface potential significantly. The major experimental finding is that the pulse discharges often propagate to nearby mutually biased electrodes and can create a full vacuum breakdown between stainless steel electrodes, rarely if biased at as little as 100 V, but often if biased at 300 V. The phenomena appear to be associated with the pulsed creation of dense plasma from the discharging dielectric, and the pulsed volume of gas evolved is equivalent to roughly 0.1 to 0.4 mm3 at 1 atm for nominally 50-cm2 samples. The plasma could evolve to interconnect more than two electrodes. Additionally, PET pulse rates were strongly dependent upon the proximity of sharp edges, either metallic or dielectric
Keywords :
electric breakdown; electron beam effects; organic insulating materials; polymer films; surface discharges; vacuum insulation; -15 kV; 100 to 300 V; 25 keV; FeCrC electrodes; PET pulse rates; complex structures; dielectric sharp edges; electron beam charging; metal electrodes vacuum discharge; metallic sharp edges; polyethylene terephthalate; polymer foils; proximity of sharp edges; pulse discharge plasma migration; rapid pulse discharges; stainless steel electrodes; vacuum breakdown; Aircraft manufacture; Dielectric breakdown; Dielectrics and electrical insulation; Electrodes; Electron beams; Plasma density; Plasma measurements; Positron emission tomography; Surface discharges; Vacuum breakdown;
Journal_Title :
Electrical Insulation, IEEE Transactions on
