A micro-mechanical constitutive model for heterogeneous rocks with non-associated plastic matrix as implicit standard materials - Université de Lille
Article Dans Une Revue Computers and Geotechnics Année : 2021

A micro-mechanical constitutive model for heterogeneous rocks with non-associated plastic matrix as implicit standard materials

Résumé

In this work, we shall propose a new micro-mechanical constitutive model for the estimation of effective elastic-plastic behaviors of heterogeneous rocks. A bi-potential based incremental variational (BIV) approach is developed in order to take into account non-uniform local strain fields of constituents. The studied materials are composed of a non-associated and pressure sensitive plastic matrix, elastic inclusions and/or voids. For clarity, the local behavior of matrix is first described by an elastic perfectly-plastic model. Based on the bi-potential theory to dealing with non-associated plastic flow, the solid matrix is considered as pertaining to implicit standard materials (ISMs). The effective incremental bi-potential and macroscopic stress tensor are then estimated through an extension of the incremental variational method initially established for generalized standard materials(GSMs). The accuracy of the BIV model is verified by comparing the model’s predictions with the reference results obtained from direct finite element simulations. Furthermore, by assuming that the general formulation obtained for the perfectly plastic matrix remains valid for each loading increment, the BIV model is extended to considering that the solid matrix exhibits an isotropic hardening by using an explicit algorithm. The accuracy of the extended BIV model is also validated by a series of comparisons with the reference solutions obtained by direct finite element simulations for both inclusion-reinforced composites and porous materials. Both local and macroscopic responses are compared. As an example of application, the extended BIV model is finally applied to estimating the mechanical responses of typical claystone and sandstone under different loading paths.
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hal-03714374 , version 1 (22-03-2023)

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Lun-Yang Zhao, Jian-Fu Shao, Yuan-Ming Lai, Qi-Zhi Zhu, Jean-Baptiste Colliat, et al.. A micro-mechanical constitutive model for heterogeneous rocks with non-associated plastic matrix as implicit standard materials. Computers and Geotechnics, 2021, Computers and Geotechnics, 133, pp.104026. ⟨10.1016/j.compgeo.2021.104026⟩. ⟨hal-03714374⟩
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