Conference paper
The influence of titanium dioxide additive on the short-term DC breakdown strength of polyethylene
The effect of the addition of 1% by weight of titanium dioxide fine particles to low-density polyethylene (LDPE) on the short-term DC breakdown strength of the LDPE was investigated using direct and reverse polarity voltages. The samples used were cylinders of both plain and doped materials, with hemispherically tipped cylindrical electrodes completely embedded in the material, with a minimum gap length between the electrode tips of 0.25 mm.
All tests were conducted at room temperature. Results indicate that, although the addition of TiO2 reduces the DC breakdown strength of the doped material if compared to the plain material, it significantly improves its DC reverse polarity characteristics. The doped material seems to be insensitive to the DC polarity reversals.
The observed beneficial effect of the addition of TiO2 on the DC reverse polarity characteristics is attributed to the role of this additive in modifying the trapping levels in the polymer, and the consequent change in the space charge pattern in the doped material
Language: | English |
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Year: | 1990 |
Pages: | 268-271 |
Proceedings: | 1990 IEEE International Symposium on Electrical Insulation |
ISSN: | 1089084x and 01642006 |
Types: | Conference paper |
DOI: | 10.1109/ELINSL.1990.109753 |
0.25 mm Additives Breakdown voltage Conducting materials DC polarity reversals DC reverse polarity characteristics Electric breakdown Electrodes LDPE Polyethylene Polymers Temperature Testing TiO/sub 2/ additive TiO/sub 2/ particles filled polyethylene Titanium composite insulating materials cylindrical samples electric strength embedded electrodes filled XLPE filled polymers gap length hemispherically tipped cylindrical electrodes insulation testing low-density polyethylene materials testing organic insulating materials plain XLPE polyethylene reverse polarity voltages room temperature short-term DC breakdown strength space charge pattern titanium compounds