Effects of Oxidation on Electrical Conduction and Breakdown of Low-Density Polyethylene Films with Different Densities

• Published in: Japanese Journal of Applied Physics Vol. 37; no. 3R; p. 872
• Main Authors: Banmongkol, Channarong, Mori, Tatsuo, Mizutani, Teruyoshi, Ishioka, Mitsugu, Ishino, Iwao
• Format: Journal Article
• Language: English
• Published: 01.03.1998
• ISSN: 0021-4922; 1347-4065
• DOI: 10.1143/JJAP.37.872

Oxidation more greatly enhanced the conduction current in low-density polyethylene with a low density of 0.9172 g/cm 3 (ℓ-LDPE) than that with a high density of 0.9255 g/cm 3 ( h -LDPE). This result was attributed to the easier carrier transport in the unoxidized region of ℓ-LDPE. Both oxidized specimens had almost the same impulse breakdown strength ( F Bimp ), except when the absorbance of carbonyl groups ( A ) was higher than 0.6. At 30°C, the increase in the number of injected electrons which initiate an avalanche decreased F Bimp for A <0.1 but the carrier scattering effect due to carbonyl groups increased F Bimp for A >0.1. However, a thermal or electromechanical breakdown mechanism would take part in the breakdown process at higher temperatures. The dc breakdown strength ( F Bdc ) decreased with oxidation, and h -LDPE showed a higher F Bdc than ℓ-LDPE. These results suggested a contribution of the thermal mechanism to the breakdown. Space charge also seemed to play a role in the breakdown process.