peer reviewedThe formulation and implementation of a double-scale finite element model for hydro-mechanical coupling in the framework of the finite element squared method has allowed studying macroscale boundary value problems in a poromechanical continuum. The macroscale constitutive relations are directly derived from the micromechanical interaction between fluid and solid microstructure, captured in representative elementary volumes. The application of this model in the simulation of a biaxial test and a gallery excavation problem is presented here to give examples of the model in strain localization problems. While using simple micromechanical models, the results demonstrate the ability of the model to provide complex macroscale materia...
This paper presents a multi-scale modelling approach for bridging the microscale damage and macrosca...
Cellular materials are of special interest according to their peculiar mechanical properties. In thi...
In this paper, a multi-scale technique is proposed for the modeling of microstructured materials up ...
The work to be presented concerns the modelling of hydro-mechanical behaviour of clayey rocks as enc...
An approach is investigated for the modelling of the hydro-mechanical coupled behaviour of Callovo-...
Feasibility studies for deep geological radioactive waste disposal facilities have led to an increa...
peer reviewedContinuum media from classical mechanics cannot appropriately reproduce the evolution o...
We present a novel two-scale finite element model for strain localization in solids, covering the co...
We present two different approaches to describe the hydromechanical behaviour of geomaterials. In th...
Abstract: A finite strain multiscale hydro-mechanical model is established via an extended Hill–Mand...
A coupled two-scale framework based on computational homogenisation is proposed for problems combini...
peer reviewedThis contribution discusses a coupled two-scale framework for hydro-mechanical problems...
This paper presents a multiscale computational homogenization model for the post localization behavi...
This work presents a general formulation of small and large strain multiscale solid constitutive mod...
This part of the CISM course addresses basics and advanced topics onthe computational homogenization...
This paper presents a multi-scale modelling approach for bridging the microscale damage and macrosca...
Cellular materials are of special interest according to their peculiar mechanical properties. In thi...
In this paper, a multi-scale technique is proposed for the modeling of microstructured materials up ...
The work to be presented concerns the modelling of hydro-mechanical behaviour of clayey rocks as enc...
An approach is investigated for the modelling of the hydro-mechanical coupled behaviour of Callovo-...
Feasibility studies for deep geological radioactive waste disposal facilities have led to an increa...
peer reviewedContinuum media from classical mechanics cannot appropriately reproduce the evolution o...
We present a novel two-scale finite element model for strain localization in solids, covering the co...
We present two different approaches to describe the hydromechanical behaviour of geomaterials. In th...
Abstract: A finite strain multiscale hydro-mechanical model is established via an extended Hill–Mand...
A coupled two-scale framework based on computational homogenisation is proposed for problems combini...
peer reviewedThis contribution discusses a coupled two-scale framework for hydro-mechanical problems...
This paper presents a multiscale computational homogenization model for the post localization behavi...
This work presents a general formulation of small and large strain multiscale solid constitutive mod...
This part of the CISM course addresses basics and advanced topics onthe computational homogenization...
This paper presents a multi-scale modelling approach for bridging the microscale damage and macrosca...
Cellular materials are of special interest according to their peculiar mechanical properties. In thi...
In this paper, a multi-scale technique is proposed for the modeling of microstructured materials up ...