AbstractStarting from the general expression of the free-energy function of a saturated porous medium at finite deformations in the case of compressible fluid and solid constituents, and from the internal dissipation increment, the general expressions of the plastic potential and flow rule are deduced together with the general form of the consistency condition. Reference is made to an elementary volume moving with the solid skeleton in a Lagrangian description, which is treated as an open system from which the pore fluid can flow freely in and out.As a result, a generalisation is provided of the classical Prandtl–Reuss relationship of small strain elastoplasticity in single-phase media to finite strain multiplicative (for F) and additive (f...
We formulate an elastic-plastic constitutive model for anisotropic fluid-saturated porous media. Two...
Background. Osmotic, electro-static and/or hydrational swelling are essential mechanisms in the defo...
The goal of this contribution is to merge the advances in porous media theories and the state of the...
AbstractStarting from the general expression of the free-energy function of a saturated porous mediu...
Finite elastic or elastoplastic strains in fluid saturated soils are studied. Isothermal and quasi-s...
A formulation for a partially saturated porous medium undergoing large elastoplastic deformations is...
International audienceAfter recalling the constitutive equations of finite strain poroelasticity for...
A formulation for a partially saturated porous medium undergoing large elastic or elastoplastic defo...
A formulation for a partially saturated porous medium undergoing large elastic or elastoplastic defo...
A constitutive formulation for finite deformation of porous solids, including an hierarchical arrang...
This paper reviews some aspects of the formulation of the constitutive behavior of a saturated porou...
In a two-phase material not only each constituent, the solid and the fluid, may be compressible on t...
In the present contribution a novel model for the description of the dynamic response of biphasic me...
Abstract. A thermo-chemo-electro-mechanical formulation of quasi-static finite deformation of swelli...
This paper presents a formulation for a saturated and partially saturated porous medium undergoing l...
We formulate an elastic-plastic constitutive model for anisotropic fluid-saturated porous media. Two...
Background. Osmotic, electro-static and/or hydrational swelling are essential mechanisms in the defo...
The goal of this contribution is to merge the advances in porous media theories and the state of the...
AbstractStarting from the general expression of the free-energy function of a saturated porous mediu...
Finite elastic or elastoplastic strains in fluid saturated soils are studied. Isothermal and quasi-s...
A formulation for a partially saturated porous medium undergoing large elastoplastic deformations is...
International audienceAfter recalling the constitutive equations of finite strain poroelasticity for...
A formulation for a partially saturated porous medium undergoing large elastic or elastoplastic defo...
A formulation for a partially saturated porous medium undergoing large elastic or elastoplastic defo...
A constitutive formulation for finite deformation of porous solids, including an hierarchical arrang...
This paper reviews some aspects of the formulation of the constitutive behavior of a saturated porou...
In a two-phase material not only each constituent, the solid and the fluid, may be compressible on t...
In the present contribution a novel model for the description of the dynamic response of biphasic me...
Abstract. A thermo-chemo-electro-mechanical formulation of quasi-static finite deformation of swelli...
This paper presents a formulation for a saturated and partially saturated porous medium undergoing l...
We formulate an elastic-plastic constitutive model for anisotropic fluid-saturated porous media. Two...
Background. Osmotic, electro-static and/or hydrational swelling are essential mechanisms in the defo...
The goal of this contribution is to merge the advances in porous media theories and the state of the...