Title :
Development of watertree retardant XLPE cables
Author :
Fischer, P. ; Müller, N. ; Peschke, E.F. ; Schroth, R.G.
Author_Institution :
Siemens AG, Erlangen, West Germany
Abstract :
The development and testing of a WTR XLPE (watertree-retardant cross-linked polyethylene) insulating material in MV (medium voltage) cables are outlined. The main phases of the development are postulation of a hypothesis of WT initiation and growth; investigation and verification of the WTR efficiency of a WTR compound on a laboratory scale, projection of the laboratory results to large-scale manufacture, verification of the ability to produce full-scale cables with the WTR insulating compound on conventional manufacturing lines; and electrical short- and long-time tests on these cables under rigorous aging conditions. It is concluded that the development has resulted in a WTR XLPE cable which compares favorably with standard XLPE cables in most respects, while at the same time showing a vastly improved resistance to watertree formation
Keywords :
ageing; cable insulation; electric breakdown of solids; life testing; materials testing; organic insulating materials; polymers; power cables; WTR XLPE; conventional manufacturing lines; development; full-scale cables; laboratory scale; large-scale manufacture; long-time tests; medium voltage; resistance to watertree formation; rigorous aging conditions; testing; verification; water trees; watertree retardant XLPE cables; watertree-retardant cross-linked polyethylene; Aging; Cable insulation; Dielectrics and electrical insulation; Laboratories; Large-scale systems; Manufacturing; Materials testing; Medium voltage; Polyethylene; Retardants;
Conference_Titel :
Properties and Applications of Dielectric Materials, 1988. Proceedings., Second International Conference on Properties and Applications of
Conference_Location :
Beijing
DOI :
10.1109/ICPADM.1988.38437
