The coupled thermo-hydro-mechanical (THM) response of liquid-infiltrated porous media
underpins the safe operation and maintenance of key engineering infrastructure …

The paper describes a thermo-hydro-mechanical formulation to model thermally induced
effects due to the irreversible work input generated during soil deformation. The model was …

This paper reviews the history of the research development on the coupling mechanism of
the multiphysical field, eg, thermo‐hydro‐mechanical (THM), for frozen soil. The objective is …

A large deformation, coupled finite‐element (FE) model is developed to simulate the
multiphase response of soft porous materials subjected to high strain‐rate loading. The …

Geomaterials such as sand and clay are highly heterogeneous multiphase materials.
Nonlocality (or a characteristic length scale) in modeling geomaterials based on the …

In this paper, a computational modeling tool is developed for fully coupled multiphase flow in
deformable heterogeneous porous medium that consists of complex and non-uniform micro …

In this article, we investigate strain localization in non-isothermal unsaturated geomaterials
considering spatial material heterogeneity. For this purpose, we formulate a mesoscale …

This work discusses a general approach for preconditioning the block Jacobian matrix
arising from the discretization and linearization of coupled multiphysics problem. The …

Unsaturated soils are solid‐water‐air systems that include a solid skeleton, pore water, and
pore air. Heterogeneities in porosity or degree of saturation are salient features of …

This paper is aimed at presenting a mixed finite-element model that is capable of dealing
with nonlinear coupled thermo-poro-elastoplastic simulations of porous media. The model …