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Investigation of Cohesive Zone Models for Three-Dimensional Fatigue Crack Propagation in Engineering Metals

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Investigation of Cohesive Zone Models for Three-Dimensional Fatigue Crack Propagation in Engineering Metals (Tienda española)

Xiao Li (Autor)

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With the development of technology, damage tolerance design becomes compulsory and fatigue crack propagation life is a necessary design case, e.g. in aerospace industry. For low cycle fatigue problems, the failure process is generally ductile which cannot be described by the known Paris’ law properly. Predicting elastoplastic fatigue crack growth life remains one of the most challenging problems in fracture mechanics.

Cohesive zone modeling provides an alternative way to predict crack growth in ductile materials under elastoplastic loading conditions. The investigations of constraint effects have confirmed that cracking depends on the applied load intensity and the load configuration. Present dissertation concerns the constraint effect on the cohesive zone model and the application of the cohesive zone model for three-dimensional low cycle fatigue crack growth predictions.

- A new stress-triaxiality-dependent cohesive zone model is proposed to describe 3D elastoplastic fracture process.
- A new cyclic cohesive zone model is proposed to describe the fatigue crack growth with both low and high growth rates.
- A new stress-triaxiality-dependent cyclic cohesive zone model is proposed and the stress-state affects both the cohesive law and the damage evolution equation.

ISBN-13 (Impresion) 9783736996199
ISBN-13 (E-Book) 9783736986190
Idioma Inglés
Numero de paginas 140
Laminacion de la cubierta mate
Edicion 1.
Lugar de publicacion Göttingen
Lugar de la disertacion Wuppertal
Fecha de publicacion 12.09.2017
Clasificacion simple Tesis doctoral
Area Mecánica de medida
Palabras claves Ductile failure, constraint effects, stress triaxiality, cohesive zone model, cyclic cohesive zone model, 3D fatigue crack growth simulation