Affiliation:
1. University of Dayton Research Institute Dayton, Ohio 45469
Abstract
The paper discusses a characterization of fatigue behavior of [0/±45/90] s glass/epoxy laminate in terms of the following parameters: static properties; S-N relationship; reliability; effect of thickness variation; damage initiation and growth; temperature increase; secant modulus change; effect of preloading on residual modulus and strength; and effect of ply failure on compression buckling strength. Some of the findings are the following. The primary failure process responsible for up to about 106 cycles of fatigue life is the wear-out followed by the chance failure. Change of secant modulus can be used as a measure of damage extent. Preloading to a high level has negligible effect on the residual tensile strength when the fatigue stress is low. However, ply failure and partial delamination result in a moderate loss of compression buckling strength.
Subject
Materials Chemistry,Mechanical Engineering,Mechanics of Materials,Ceramics and Composites
Reference12 articles.
1. On the Behavior of Composite Laminates After Initial Failures
2. Inelastic Behavior of Composite Materials;S.W. Tsai,1975
3. Fundamental Aspects of Fiber Reinforced Plastic Composites;F.J. McGarry,1968
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