Title :
Water treeing - filled versus unfilled cable insulation
Author :
Boggs, Steven ; Xu, James
Author_Institution :
Electr. Insulation Res. Center, Connecticut Univ., CT, USA
Abstract :
Attempts to make XLPE increasingly resistant to water tree growth have involved additives, which decrease hydrophobicity and make the XLPE more like EPR. EPS are evolving through improved processing, clay compatibilization, etc. to reduce losses while retaining the inherent water tree resistance. Thus in the end, the two technologies appear to be moving toward the "center" from opposite ends of a spectrum (filled versus unfilled) to achieve improved cable insulation performance.
Keywords :
XLPE insulation; composite insulating materials; ethylene-propylene rubber; filled polymers; power cable insulation; trees (electrical); EPR; XLPE; additive; electro-oxidation; filled cable insulation; hydrophobicity; ion content; unfilled cable insulation; water treeing; Cable insulation; Dielectrics and electrical insulation; Microcavities; Moisture; Oxidation; Paramagnetic resonance; Polymers; Solids; Stress; Trees - insulation;
Journal_Title :
Electrical Insulation Magazine, IEEE
