Simulation of Delamination Propagation in Composites Under High-Cycle Fatigue by Means of Cohesive-Zone Models

orcId Turon Travesa, Albert researcherId Turon Travesa, Albert scopusId Turon Travesa, Albert
Turon Travesa, Albert
orcId Costa i Balanzat, Josep researcherId Costa i Balanzat, Josep scopusId Costa i Balanzat, Josep
Costa i Balanzat, Josep
Camanho, Pedro Manuel Ponces Rodrigues de Castro
Dávila, Carlos G.
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A damage model for the simulation of delamination propagation under high-cycle fatigue loading is proposed. The basis for the formulation is a cohesive law that links fracture and damage mechanics to establish the evolution of the damage variable in terms of the crack growth rate dA/dN. The damage state is obtained as a function of the loading conditions as well as the experimentally-determined coefficients of the Paris Law crack propagation rates for the material. It is shown that by using the constitutive fatigue damage model in a structural analysis, experimental results can be reproduced without the need of additional model-specific curve-fitting parameters ​
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