Chongcong Tao scite author profile

This work presents a cohesive interface model for predicting interlaminar failure of composite laminates under tension-tension fatigue loading. The model features improvements on previous formulations and utilizes four-integration-point elements, which offer several new advantages, while maintaining the merits of the previous single-integration-point elements. An element-based crack tip tracking algorithm is incorporated to confine fatigue damage to crack-tip elements only. A new local rate approach is proposed to ensure accurate integration of strain energy release rate from local elements. Furthermore, a dynamic fatigue characteristic length is proposed to offer a more accurate estimation of fatigue characteristic length in complex threedimensional cases. Fatigue initiation is incorporated by using a strength reduction method, without changing the propagation characteristics. The numerical approach has been verified and validated using multiple cases and was then applied to fatigue damage development in open-hole laminates, where a good agreement between numerical analysis and experimental results was obtained.

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Application of neural network to model stiffness degradation for composite laminates under cyclic loadings

Tao

Zhang

et al. 2021

Composites Science and Technology

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Chongcong Tao

Fatigue damage characterization for composite laminates using deep learning and laser ultrasonic

Characterization of fatigue damages in composite laminates using Lamb wave velocity and prediction of residual life

An improved delamination fatigue cohesive interface model for complex three-dimensional multi-interface cases

Application of neural network to model stiffness degradation for composite laminates under cyclic loadings

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