AbstractBased on Biot’s theory, the dynamic 2.5-D Green’s function for a saturated porous medium is obtained using the Fourier transform and the potential decomposition methods. The 2.5-D Green’s function corresponds to the solutions for the following two problems: the point force applied to the solid skeleton, and the dilatation source applied within the pore fluid. By performing the Fourier transform on the governing equations for the 3-D Green’s function, the governing differential equations for the two parts of the 2.5-D Green’s function are established and then solved to obtain the dynamic 2.5-D Green’s function. The derived 2.5-D Green’s function for saturated porous media is verified through comparison with the existing solution for ...
A formulation for a partially saturated porous medium undergoing large elastic or elastoplastic defo...
[[abstract]]his paper derives a complex dynamic stiffness function for a poroelastic layer and uses ...
A poromechanical model of partially saturated deformable porous media is proposed based on a phase f...
Based on Biot's theory, the dynamic 2.5-D Green's function for a saturated porous medium is obtained...
AbstractBased on Biot’s theory, the dynamic 2.5-D Green’s function for a saturated porous medium is ...
The 3-D boundary integral equation is derived in terms of the reciprocal work theorem and used along...
AbstractThe 3-D boundary integral equation is derived in terms of the reciprocal work theorem and us...
The problem of loading on a one-dimensional partially saturated poroelastic rod is considered. A mat...
© 2015 Elsevier Ltd. This paper presents a new modified stiffness matrix method for the dynamic resp...
AbstractIn this paper, an analytical solution for the dynamic response of a half-space porous medium...
The mechanical behavior of porous media is governed by the interaction between its solid skeleton an...
In this paper, a large deformation formulation for dynamic analysis of the pore fluid-solid interact...
A new micromechanics method is proposed to investigate the effective properties of saturated porous ...
A consistent and unified formulation of Green’s functions for wave propagation in poroelastic solids...
The paper investigates a description of energy dissipation within saturated soils-diffusion of pore-...
A formulation for a partially saturated porous medium undergoing large elastic or elastoplastic defo...
[[abstract]]his paper derives a complex dynamic stiffness function for a poroelastic layer and uses ...
A poromechanical model of partially saturated deformable porous media is proposed based on a phase f...
Based on Biot's theory, the dynamic 2.5-D Green's function for a saturated porous medium is obtained...
AbstractBased on Biot’s theory, the dynamic 2.5-D Green’s function for a saturated porous medium is ...
The 3-D boundary integral equation is derived in terms of the reciprocal work theorem and used along...
AbstractThe 3-D boundary integral equation is derived in terms of the reciprocal work theorem and us...
The problem of loading on a one-dimensional partially saturated poroelastic rod is considered. A mat...
© 2015 Elsevier Ltd. This paper presents a new modified stiffness matrix method for the dynamic resp...
AbstractIn this paper, an analytical solution for the dynamic response of a half-space porous medium...
The mechanical behavior of porous media is governed by the interaction between its solid skeleton an...
In this paper, a large deformation formulation for dynamic analysis of the pore fluid-solid interact...
A new micromechanics method is proposed to investigate the effective properties of saturated porous ...
A consistent and unified formulation of Green’s functions for wave propagation in poroelastic solids...
The paper investigates a description of energy dissipation within saturated soils-diffusion of pore-...
A formulation for a partially saturated porous medium undergoing large elastic or elastoplastic defo...
[[abstract]]his paper derives a complex dynamic stiffness function for a poroelastic layer and uses ...
A poromechanical model of partially saturated deformable porous media is proposed based on a phase f...