A computational model for diffusion-reaction-deformation coupled problems and its finite element implementation

Abstract: PurposeA diffusion-reaction-deformation coupled model is employed and implemented as a user-defined element (UEL) subroutine in the commercial finite element software package ABAQUS.Design/methodology/approachChemical reaction and diffusion are treated as two distinct processes by introducing the extent of reaction and the diffusion concentration as two kinds of independent variables, for which the independent governing equations for chemical reaction and diffusion processes are obtained. Furthermore, an expon… Show more

“…For more complex geometries, however, the Finite Element Method (FEM) is generally accepted as an effective approach for solving coupled transient problems, also when porous multiphase materials are involved [3][4][5]. Based on FEM, some diffusion-deformation and diffusion-reaction-deformation coupling models are proposed in literature [6,7]. As far as the authors know, a FEM thermo-mechanical-neutron diffusion coupled model for irradiated concrete has not yet been presented.…”

A coupled thermo-mechanical and neutron diffusion numerical model for irradiated concrete

“…For more complex geometries, however, the Finite Element Method (FEM) is generally accepted as an effective approach for solving coupled transient problems, also when porous multiphase materials are involved [3][4][5]. Based on FEM, some diffusion-deformation and diffusion-reaction-deformation coupling models are proposed in literature [6,7]. As far as the authors know, a FEM thermo-mechanical-neutron diffusion coupled model for irradiated concrete has not yet been presented.…”

A coupled thermo-mechanical and neutron diffusion numerical model for irradiated concrete

A thermo-chemo-mechanically coupled peridynamics for investigating crack behavior in solids