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An isotropic unilateral damage model coupled with frictional sliding for quasi-brittle materials

type de publication      article dans une revue internationale avec comité de lecture
date de publication 2013
auteur(s) Lanoye Emma; Cormery Fabrice; Kondo Djimédo; Shao Jian-Fu
journal (abréviation) Mechanics Research Communications (Mech Res Comm)
volume (numéro) 53
pages 31 – 35
résumé In this paper, we present an original extension of an isotropic damage model for quasi-brittle materials and assess its predictive capabilities. The proposed model accounts not only for unilateral behavior related to the opening and closure of microcracks but also for inelastic strains reflecting the frictional sliding along closed microcracks. More importantly, owing to its careful mathematical formulation with a particular attention paid to the continuous differentiability of the underlined thermodynamic potential, the model ensures the continuity of the inelastic stress–strain response. First applications show that it is able to predict the asymmetric behavior and hysteretic response of microcracked materials such as concrete and some rocks
mots clés Damage; Inelasticity; Unilateral effect; Frictional microcracks; Quasi-brittle materials
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