DocumentCode
1361373
Title
Evaluation of surface degradation of silicone rubber using gas chromatography/mass spectroscopy
Author
Homma, H. ; Kuroyagi, T. ; Izumi, K. ; Mirley, C.L. ; Ronzello, J. ; Boggs, S.A.
Author_Institution
Central Res. Inst. of Electr. Power Ind., Kanagawa, Japan
Volume
15
Issue
2
fYear
2000
fDate
4/1/2000 12:00:00 AM
Firstpage
796
Lastpage
803
Abstract
Analysis using gas chromatography/mass spectroscopy (GC/MS) was performed for evaluation of surface degradation of silicone insulating materials. Silicones are used as coatings for porcelain insulators and shed material for high voltage composite insulators. A comparison between virgin silicone rubber and aged silicone rubber samples, which were aged either on actual power lines or during a field exposure test, was made by GC/MS analysis. The GC/MS spectrum of siloxane in silicone rubber has a series of peaks which corresponds to the number of dimethylsiloxane units in the molecule. We found that the aged samples had a larger concentration of low molecular weight siloxane species than the virgin samples. The top shed surfaces generated more low molecular weight siloxane species than the bottom shed surfaces. Since GC/MS analysis can determine the molecular weight distribution of polymer insulating materials, evaluation of the degree of surface degradation and estimation of the remaining life of insulators may be possible
Keywords
ageing; chromatography; insulating coatings; insulator contamination; insulator testing; mass spectroscopy; porcelain insulators; silicone rubber; aged silicone rubber; bottom shed surfaces; dimethylsiloxane units; field exposure test; gas chromatography; high voltage composite insulators; insulator remaining life; low molecular weight siloxane species; mass spectroscopy; molecular weight distribution; polymer insulating materials; porcelain insulators coating; power lines; shed material; silicone insulating materials; silicone rubber; surface degradation; surface degradation evaluation; top shed surfaces; Aging; Coatings; Degradation; Gas chromatography; Gas insulation; Mass spectroscopy; Performance analysis; Performance evaluation; Plastic insulation; Rubber;
fLanguage
English
Journal_Title
Power Delivery, IEEE Transactions on
Publisher
ieee
ISSN
0885-8977
Type
jour
DOI
10.1109/61.853022
Filename
853022
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