Add to ORKGOn the basis of Biot's theory and the u-p formulation, governing equations for dynamic problem in two-phase media are derived. Displacements of solid phase and pore pressure of fluid phase are the two basic unknown variables. The updated Lagrangian method and Jaumann stress rate are adopted for large deformation analysis of the coupled problem. A saturated soil column subjected to step and dynamic load is numerically simulated by the proposed method, and comparison between large and small strain solutions is made.EI01247-522
Dynamic two-phase interaction of soil can be modelled by a displacement-based, two-phase formulation...
This paper presents the mathematical formulation of the nonlinear multiphase dynamic model meant for...
Dynamic two-phase interaction of soil can be modelled by a displacement-based, two-phase formulation...
This paper outlines the development as well as implementation of a numerical procedure for coupled f...
In this paper, a large deformation formulation for dynamic analysis of the pore fluid-solid interact...
This paper outlines the development as well as implementation of a numerical procedure for coupled f...
In this paper, an efficient and robust methodology to simulate saturated soils subjected to low-medi...
Unsaturated soil is a three-phase medium with three interfaces, and the mathematical equations that ...
Two finite element approaches are discussed for the analysis of the coupled problems of seepage and ...
Two finite element approaches are discussed for the analysis of the coupled problems of seepage and ...
Two finite element approaches are discussed for the analysis of the coupled problems of seepage and ...
Two finite element approaches are discussed for the analysis of the coupled problems of seepage and ...
In this paper a new methodology to simulate saturated soils subjected to dynamic loadings under larg...
The paper investigates a description of energy dissipation within saturated soils-diffusion of pore-...
Analysis of large deformation of geomaterials subjected to time-varying load poses a very difficult ...
Dynamic two-phase interaction of soil can be modelled by a displacement-based, two-phase formulation...
This paper presents the mathematical formulation of the nonlinear multiphase dynamic model meant for...
Dynamic two-phase interaction of soil can be modelled by a displacement-based, two-phase formulation...
This paper outlines the development as well as implementation of a numerical procedure for coupled f...
In this paper, a large deformation formulation for dynamic analysis of the pore fluid-solid interact...
This paper outlines the development as well as implementation of a numerical procedure for coupled f...
In this paper, an efficient and robust methodology to simulate saturated soils subjected to low-medi...
Unsaturated soil is a three-phase medium with three interfaces, and the mathematical equations that ...
Two finite element approaches are discussed for the analysis of the coupled problems of seepage and ...
Two finite element approaches are discussed for the analysis of the coupled problems of seepage and ...
Two finite element approaches are discussed for the analysis of the coupled problems of seepage and ...
Two finite element approaches are discussed for the analysis of the coupled problems of seepage and ...
In this paper a new methodology to simulate saturated soils subjected to dynamic loadings under larg...
The paper investigates a description of energy dissipation within saturated soils-diffusion of pore-...
Analysis of large deformation of geomaterials subjected to time-varying load poses a very difficult ...
Dynamic two-phase interaction of soil can be modelled by a displacement-based, two-phase formulation...
This paper presents the mathematical formulation of the nonlinear multiphase dynamic model meant for...
Dynamic two-phase interaction of soil can be modelled by a displacement-based, two-phase formulation...