DocumentCode
1012504
Title
Water diffusion into and electrical testing of composite insulator GRP rods
Author
Armentrout, D. ; Kumosa, M. ; Kumosa, L.
Author_Institution
Center for Adv. Mater. & Structures, Denver Univ., CO, USA
Volume
11
Issue
3
fYear
2004
fDate
6/1/2004 12:00:00 AM
Firstpage
506
Lastpage
522
Abstract
This paper describes water diffusion into and electrical testing of unidirectional glass reinforced polymer (GRP) composite rods used as load bearing components in high voltage composite (non-ceramic) insulators. The tests were performed following ANSI standard C29.11 Section 7.4.2 that can be used to evaluate electrical properties of composites. The unidirectional composite rod materials based on either E-glass or ECR-glass fibers with modified polyester, epoxy and vinyl ester resins were investigated. Two types of ECR-glass fibers were considered, namely high and low seed (voids). The effects of composite surface sandblasting, mechanical pre-loading and nitric acid exposure on the electrical properties of the composites were studied. In addition to the required data of the ANSI standard, the specimen mass gain was also measured after boiling for 100 h. Most importantly, there was no correlation found between the mass gain and the leakage current for different composites. The materials with high seed ECR-glass fibers had much higher leakage currents and they absorbed less moisture than the composites based on either the low seed ECR-glass fibers or E-glass fibers. It was shown in this work that different types of sandblasting, as well as mechanical preloading with and without acid exposure had a negligible effect on the leakage currents and water mass gain of the composite specimens.
Keywords
ANSI standards; composite insulators; diffusion; epoxy insulators; glass fibre reinforced plastics; insulator testing; leakage currents; resins; sandblasting; water; ANSI standard C29.11; E-glass fibers; ECR-glass fibers; GRP rods; boiling; composite insulator rods; composite surface sandblasting; electrical testing; epoxy resins; high voltage insulators; leakage current; load bearing components; mechanical pre-loading; moisture absorption; nitric acid exposure; polyester resins; unidirectional glass reinforced polymer composite rods; vinyl ester resins; water diffusion; water mass gain; ANSI standards; Composite materials; Dielectrics and electrical insulation; Glass; Insulator testing; Leakage current; Optical fiber testing; Polymers; Sandblasting; Voltage;
fLanguage
English
Journal_Title
Dielectrics and Electrical Insulation, IEEE Transactions on
Publisher
ieee
ISSN
1070-9878
Type
jour
DOI
10.1109/TDEI.2004.1306729
Filename
1306729
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