A general numerical model has been developed for fluid flow in a progressively fracturing porous medium subject to large deformations. The fluid flow away from the crack is modelled in a standard manner using Darcy’s relation. In the discontinuity a similar relation is assumed for the fluid flow, but with a different permeability to take into account the higher porosity within the crack due to progressive damage evolution. The crack is described in a discrete manner by exploiting the partition-of-unity property of finite element shape functions. The nucleation and the opening of micro-cracks are modelled by a traction-separation relation. A heuristic approach is adopted to model the orientation of the cracks at the interfaces in the deforme...
In this paper, we study the fluid flow in a deformable porous linear elastic media with a single cra...
This paper presents a computational framework for modelling hydraulic fracture on the basis of combi...
An extension to a finite strain framework of a two-scale numerical model for propagating crack in po...
A general numerical model has been developed for fluid flow in a progressively fracturing porous med...
A two-scale model is developed for fluid flow in a deforming, unsaturated and progressively fracturi...
A derivation is given of two-scale models that are able to describe deformation and flow in a fluid-...
A derivation is given of two-scale models that are able to describe defornlation and fluid flow in a...
A derivation is given of two-scale models that are able to describe deformation and flow in a fluid-...
International audienceA two‐scale numerical model is developed for fluid flow in fractured, deformin...
In the present paper, a fully coupled numerical model is developed for the hydromechanical analysis ...
International audienceA derivation is given of two-scale models that are able to describe deformatio...
In the present paper, a numerical model is developed based on a combination of the extended finite e...
The consolidation of a porous medium in the presence of strong discontinuities (cracks) can prove hi...
The objective of this monograph is the derivation and implementation of a robust Finite Element form...
In this paper, we study the fluid flow in a deformable porous linear elastic media with a single cra...
This paper presents a computational framework for modelling hydraulic fracture on the basis of combi...
An extension to a finite strain framework of a two-scale numerical model for propagating crack in po...
A general numerical model has been developed for fluid flow in a progressively fracturing porous med...
A two-scale model is developed for fluid flow in a deforming, unsaturated and progressively fracturi...
A derivation is given of two-scale models that are able to describe deformation and flow in a fluid-...
A derivation is given of two-scale models that are able to describe defornlation and fluid flow in a...
A derivation is given of two-scale models that are able to describe deformation and flow in a fluid-...
International audienceA two‐scale numerical model is developed for fluid flow in fractured, deformin...
In the present paper, a fully coupled numerical model is developed for the hydromechanical analysis ...
International audienceA derivation is given of two-scale models that are able to describe deformatio...
In the present paper, a numerical model is developed based on a combination of the extended finite e...
The consolidation of a porous medium in the presence of strong discontinuities (cracks) can prove hi...
The objective of this monograph is the derivation and implementation of a robust Finite Element form...
In this paper, we study the fluid flow in a deformable porous linear elastic media with a single cra...
This paper presents a computational framework for modelling hydraulic fracture on the basis of combi...
An extension to a finite strain framework of a two-scale numerical model for propagating crack in po...