D. Chang scite author profile

Fatigue and fracture assessment of structures weakened by multiple site damage, such as two or more interacting cracks, represents a very challenging problem. A proper analysis of this problem often requires advanced modelling approaches. The objective of this paper is to develop a general theoretical approach and investigate the fatigue behaviour of two interacting cracks. The developed approach is based on the classical strip yield model and plasticity induced crack closure concept. It also utilises the 3D fundamental solution for an edge dislocation. The crack advance scheme adopts the cycle‐by‐cycle calculations of the effective stress intensity factors and crack increments. The modelling results were validated against experimental data available in the literature. Further, the nonlinear effects of the crack interaction and plate thickness on the crack opening stresses and crack growth rates were studied with the new approach for the problem geometry. It was demonstrated that the both effects could have a significant influence on fatigue life and cannot be disregarded in life and integrity assessments of structural components with multiple site damage.

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Effect of inclusions on LCF life of HIP plus heat treated powder metal rené 95

Shamblen

Chang

1985

Metall Trans B

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A strip yield model for two collinear cracks

Chang

Kotousov

2012

Engineering Fracture Mechanics

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Theoretical and experimental study of fatigue growth of interacting cracks

Kotousov¹,

Chang²

2015

International Journal of Fatigue

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D. Chang

A strip yield model for two collinear cracks in plates of arbitrary thickness

A fatigue crack growth model for interacting cracks in a plate of arbitrary thickness

Effect of inclusions on LCF life of HIP plus heat treated powder metal rené 95

A strip yield model for two collinear cracks

Theoretical and experimental study of fatigue growth of interacting cracks

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