Journal
IEEE TRANSACTIONS ON DIELECTRICS AND ELECTRICAL INSULATION
Volume 12, Issue 4, Pages 745-753Publisher
IEEE-INST ELECTRICAL ELECTRONICS ENGINEERS INC
DOI: 10.1109/TDEI.2005.1511100
Keywords
conductivity; polyethylene; nano particles; titanium dioxide; space charge; laser-intensity-modulation-method
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Electrical conductivity (de) and space charge accumulation were studied in samples of low density polyethylene to which nano-sized and micro-sized TiO2 (anatase) particles and a dispersant had been added. Sample thicknesses were in the range 150-200 mu m. At applied field strengths of 10 and 20 kV/mm, the conductivity at 30 degrees C, measured in vacuum in samples containing 10 % w/w nano-sized TiO2, decreased by 1-2 orders of magnitude relative to samples with dispersant but without TiO2, and by three orders of magnitude at 70 T. In air at 30 degrees C the corresponding decrease was an order of magnitude at 10 kV/mm, and a factor of four at 20 kV/mm. In samples containing 10 % w/w micro-sized TiO2 the conductivity increased in air and in vacuum, but only by factors in the range 2-10 depending on temperature and field. Space charge profiles were obtained using the laser-intensity-modulation-method (LIMM), irradiating both surfaces of the sample. The micro-sized TiO2 particles are associated with increased charge injection from the electrodes and increased charge trapping in the sample bulk, increasing the conductivity overall. The nano-sized particles generate very little charge in the sample bulk, but render the electrodes partially-blocking and so lower the conductivity.
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