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Fatigue of glass and carbon fiber reinforced engineering thermoplastics

✍ Scribed by J. F. Mandell; D. D. Huang; F. J. McGarry

Publisher
Society for Plastic Engineers
Year
1981
Tongue
English
Weight
755 KB
Volume
2
Category
Article
ISSN
0272-8397

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✦ Synopsis

Abstract

Cyclic tension fatigue S‐N curves are given for injection moleded Nylon 6/6, polycarbonate, polysulfone, polyphenylene sulfide, and poly(amide‐imide) matrices with glass and carbon fibers as well as for unreinforced material. The S‐N curves for most composites appear linear, with no evidence of a fatigue limit up to 10^6^ cycles. Some nonlinearity is evident with the Nylon 6/6 composities, and these appear to fail at a cumulative strain similar to the ultimate static strain. The remainder of the composites appear to fail by a crack propagation mechanism. The glass reinforced materials all degrade at a similar rate in fatigue, while the carbon reinforced materials with brittle matrices degrade more slowly than do those with ductile matrices. The latter effect may be due to greater integrity of the cracked regions for brittle matrix systems.

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This paper deals with prediction of the temperature rise in the stresscontrolled fatigue process of a glass-fiber-reinforced polyamide and the application of a temperature and frequency superposition procedure to the S-N curve. An experimental equation was derived to predict the temperature rise fro