GUERCHAIS, Raphaël; SAINTIER, Nicolas; MOREL, Franck; ROBERT, Camille

doi:10.1016/j.ijfatigue.2014.01.005

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GUERCHAIS, Raphaël
Laboratoire des Arts et Métiers ParisTech d'Angers - Procédés Matériaux Durabilité [LAMPA - PMD]

SAINTIER, Nicolas

MOREL, Franck
Laboratoire des Arts et Métiers ParisTech d'Angers - Procédés Matériaux Durabilité [LAMPA - PMD]

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International Journal of Fatigue. 2014-10, vol. 67, p. 159-172

Elsevier

Résumé en anglais

This study aims to analyse the influence of geometrical defects (notches and holes) on the high cycle fatigue behaviour of an electrolytic copper based on finite element simulations of 2D polycrystalline aggregates. In order to investigate the role of each source of anisotropy on the mechanical response at the grain scale, three different material constitutive models are assigned successively to the grains: isotropic elasticity, cubic elasticity and crystal plasticity in addition to the cubic elasticity. The significant influence of the elastic anisotropy on the mechanical response of the grains is highlighted. When considering smooth microstructures, the crystal plasticity have has a slight effect in comparison with the cubic elasticity influence. However, in the case of notched microstructures, it has been shown that the influence of the plasticity is no more negligible. Finally, the predictions of three fatigue criteria are analysed. Their ability to predict the defect size effect on the fatigue strength is evaluated thanks to a comparison with experimental data from the literature.< Réduire

Mots clés en anglais

High cycle fatigue

Defect

Microstructure modelling

Anisotropic elasticity

Crystal plasticity

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Micromechanical investigation of the influence of defects in high cycle fatigue

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