Microscopic fatigue damage progress in CFRP cross-ply laminates

A non-linear cumulative damage model for woven ply laminates under static and fatigue loads is developed in this paper. The validity scope of this model depends on the 'diffuse damage' phase up to the first intra-laminar macro-crack only (first ply failure model). The model, which is based on a cont

This paper focuses on the damage and fracture process of CFRP cross-ply laminates under on-axis and off-axis cyclic loading. On the semi-log S-N curves obtained by fatigue tests, fatigue fracture is described by a straight line and the fatigue limit is not recognized clearly. In the on-axis fatigue

Fatigue life prediction for a symmetric alternating cross-ply carbon/epoxy laminate subjected to cyclic loading in the fiber direction is attempted on a ply-by-ply basis. First, tension-tension fatigue tests are performed under constant amplitude cycling at room and high temperatures. The normalized

## Abstract This paper presents empirical models for predicting matrix crack density in a carbon fiber reinforced plastic (CFRP) cross‐ply laminate under static‐fatigue and cyclic‐fatigue loadings. First, a modified slow crack growth (SCG) law, that covers the whole range of stress ratio __R__ of t