DocumentCode
1478951
Title
FRP rods for brittle fracture resistant composite insulators
Author
Kuhl, M.
Author_Institution
CeramTec AG, Wunsiedel, Germany
Volume
8
Issue
2
fYear
2001
fDate
4/1/2001 12:00:00 AM
Firstpage
182
Lastpage
190
Abstract
Brittle fracture of fibreglass reinforced polymer (FRP) rods can lead to mechanical failures of composite insulators even at low mechanical loads during operational service. Although this fact has been known for 20 years, it may still be a problem in some designs of composite insulators at the present time. In order to find countermeasures against brittle fracture, a study was carried out in the early eighties. It turned out that brittle fracture is a problem of FRP material and that material compositions exist, resistant to brittle fracture. A brittle fracture resistant FRP rod introduced in 1983 in one particular design of composite insulators resulted in a 15 year excellent service performance. This study deals with details of brittle fracture of FRP rods. Test setups were established to induce brittle fracture artificially. It was realized that brittle fracture is some kind of stress corrosion related to the composition of the FRP material. A broad variety of FRP materials was evaluated, showing the influence of the components of FRP material on the brittle fracture behavior of FRP rods as well as the effects of different manufacturing processes. The compositions of brittle fracture resistant FRP rods are disclosed. The results from artificial testing are compared with brittle fracture of FRP rods that occurred in composite insulators in operational service. Although no quantitative correlation could be established, the trend concerning the material behavior of FRP rods is similar
Keywords
brittle fracture; composite insulating materials; failure (mechanical); glass fibre reinforced plastics; stress corrosion cracking; artificial testing; brittle fracture resistance; composite insulators; fibreglass reinforced polymer rods; manufacturing processes; mechanical failures; mechanical loads; stress corrosion; Aging; Composite materials; Fiber reinforced plastics; Inorganic materials; Insulator testing; Laboratories; Manufacturing; Plastic insulation; Polymers; Rubber;
fLanguage
English
Journal_Title
Dielectrics and Electrical Insulation, IEEE Transactions on
Publisher
ieee
ISSN
1070-9878
Type
jour
DOI
10.1109/94.919922
Filename
919922
Link To Document