Add to ORKGThe purpose of this poster is to present a new finite element formulation for the hydro-thermo-mechanical analysis of elasto-plastic multiphase materials based on Porous Media Mechanics. To this end, the general ACMEG-T thermo-elasto-plastic constitutive model for saturated soils has been implemented in the finite element code COMES-GEO for the analysis of non-isothermal elasto-plastic porous materials. The three-phase media is modelled as a deforming porous continuum where heat conduction and convection and water advection are taken into account
Aim of this work is the coupled hydro-thermo-mechanical analysis of a deep radioactive waste disposa...
Aim of this work is the implementation and the numerical validation of advanced constitutive models ...
Aim of this work is the implementation and the numerical validation of advanced constitutive models ...
The purpose of this paper is to present a new finite element formulation for the hydro-thermo-mechan...
The purpose of this paper is to present a new nite element formulation for the hydro-thermo-mechani...
The aim of this paper is numerical analysis of the coupled hydro-thermo-mechanical (HTM) behavior of...
In this work, the general ACMEG-TS thermo-elasto-plastic constitutive model for saturat-ed/unsaturat...
The numerical model is based on a fully coupled heat and multiphase flow model in deforming porous m...
The numerical model is based on a fully coupled heat and multiphase flow model in deforming porous m...
This paper presents a formulation for the computational analysis of thermo-elasto-plastic multiphase...
This paper presents a formulation for the computational analysis of thermo-elasto-plastic multiphase...
The aim of this paper is numerical analysis of the thermal consolidation processes in the framework ...
A finite element formulation for a saturated and partially saturated porous medium undergoing large ...
This paper presents a general framework for the computational analysis of geo-environmental engineer...
The aim of this work is the numerical study of the thermal consolidation process in the framework of...
Aim of this work is the coupled hydro-thermo-mechanical analysis of a deep radioactive waste disposa...
Aim of this work is the implementation and the numerical validation of advanced constitutive models ...
Aim of this work is the implementation and the numerical validation of advanced constitutive models ...
The purpose of this paper is to present a new finite element formulation for the hydro-thermo-mechan...
The purpose of this paper is to present a new nite element formulation for the hydro-thermo-mechani...
The aim of this paper is numerical analysis of the coupled hydro-thermo-mechanical (HTM) behavior of...
In this work, the general ACMEG-TS thermo-elasto-plastic constitutive model for saturat-ed/unsaturat...
The numerical model is based on a fully coupled heat and multiphase flow model in deforming porous m...
The numerical model is based on a fully coupled heat and multiphase flow model in deforming porous m...
This paper presents a formulation for the computational analysis of thermo-elasto-plastic multiphase...
This paper presents a formulation for the computational analysis of thermo-elasto-plastic multiphase...
The aim of this paper is numerical analysis of the thermal consolidation processes in the framework ...
A finite element formulation for a saturated and partially saturated porous medium undergoing large ...
This paper presents a general framework for the computational analysis of geo-environmental engineer...
The aim of this work is the numerical study of the thermal consolidation process in the framework of...
Aim of this work is the coupled hydro-thermo-mechanical analysis of a deep radioactive waste disposa...
Aim of this work is the implementation and the numerical validation of advanced constitutive models ...
Aim of this work is the implementation and the numerical validation of advanced constitutive models ...