Title :
Influence of internal residual mechanical stresses on local dielectric strength of EHV extruded XLPE cables
Author :
Lee, Seung-Yop ; Kim, Young-Ho ; Lee, In-Ho ; Amyot, Normand
Author_Institution :
LG Cable, Geong-Buk, South Korea
Abstract :
Internal residual mechanical stresses are not uniformly distributed in the cable insulation and form so-called flow patterns or frozen-in stresses. EHV cable samples were analyzed with respect to residual stresses, local breakdown strength and electrical treeing properties. Photoelastic observations have been carried out on the cable samples to investigate quantitative residual stresses. Breakdown strength, electrical tree inception voltage and tree propagation corresponding to the typical regions of the flow pattern have also been investigated and analyzed using Weibull distribution
Keywords :
Weibull distribution; XLPE insulation; electric strength; internal stresses; power cable insulation; stress effects; trees (electrical); EHV extruded XLPE cables; Weibull distribution; cable insulation; electrical tree inception voltage; electrical treeing properties; flow patterns; frozen-in stresses; internal residual mechanical stresses; local breakdown strength; local dielectric strength; photoelastic observations; residual stresses; Breakdown voltage; Cable insulation; Electric breakdown; Internal stresses; Pattern analysis; Photoelasticity; Power cable insulation; Power cables; Residual stresses; Trees - insulation;
Conference_Titel :
Electrical Insulation Conference and Electrical Manufacturing & Coil Winding Conference, 2001. Proceedings
Conference_Location :
Cincinnati, OH
Print_ISBN :
0-7803-7180-1
DOI :
10.1109/EEIC.2001.965664
