According to generalized characteristic theory, a characteristic analysis for stress wave propagation in transversely isotropic fluid-saturated porous media was performed. The characteristic differential equations and compatibility relations along bicharacteristics were deduced and the analytical expressions for wave surfaces were obtained. The characteristic and shapes of the velocity surfaces and wave surfaces in the transversely isotropic fluid-saturated porous media were discussed in detail. The results also show that the characteristic equations for stress waves in pure solids are particular cases of the characteristic equations for fluid-saturated porous media.http://gateway.webofknowledge.com/gateway/Gateway.cgi?GWVersion=2&SrcApp=PA...
Wave propagation in porous media is of interest in various diversified areas of science and engineer...
. Efforts to extend the theory of poroelasticity to semilinear and nonlinear elastic response, to pa...
Summarization: A particle velocity‐stress, finite‐difference method is developed for the simulation ...
In this paper, stress wave propagation in transversely isotropic fluid Saturated porous media is stu...
In this paper, the propagation characteristic of Rayleigh waves in transversely isotropic fluid-satu...
Based on the Blot's theory of porous media, the characteristic of stress wave propagation in th...
In this paper, the influence of anisotropy of the solid skeleton on the propagation characteristic o...
International audienceThe homogenization approach to wave propagation through saturated porous media...
A theory of wave propagation in isotropic poroelastic media saturated by two immiscible Newtonian fl...
An exact stiffness formalism is presented to study harmonic and transient wave propagation in multil...
Wave propagation in saturated porous media is investigated in the framework of two models, a theoret...
Abstract. In the present context, we consider the propagation of shear waves in the transverse isotr...
Biot’s theory for wave propagation in saturated porous solid is modified to study the propagation of...
A study of wave propagation in fractured porous media saturated by two immiscible fluids is presente...
This paper is concerned with giving a simple mathematical model on the propagation of longitudinal s...
Wave propagation in porous media is of interest in various diversified areas of science and engineer...
. Efforts to extend the theory of poroelasticity to semilinear and nonlinear elastic response, to pa...
Summarization: A particle velocity‐stress, finite‐difference method is developed for the simulation ...
In this paper, stress wave propagation in transversely isotropic fluid Saturated porous media is stu...
In this paper, the propagation characteristic of Rayleigh waves in transversely isotropic fluid-satu...
Based on the Blot's theory of porous media, the characteristic of stress wave propagation in th...
In this paper, the influence of anisotropy of the solid skeleton on the propagation characteristic o...
International audienceThe homogenization approach to wave propagation through saturated porous media...
A theory of wave propagation in isotropic poroelastic media saturated by two immiscible Newtonian fl...
An exact stiffness formalism is presented to study harmonic and transient wave propagation in multil...
Wave propagation in saturated porous media is investigated in the framework of two models, a theoret...
Abstract. In the present context, we consider the propagation of shear waves in the transverse isotr...
Biot’s theory for wave propagation in saturated porous solid is modified to study the propagation of...
A study of wave propagation in fractured porous media saturated by two immiscible fluids is presente...
This paper is concerned with giving a simple mathematical model on the propagation of longitudinal s...
Wave propagation in porous media is of interest in various diversified areas of science and engineer...
. Efforts to extend the theory of poroelasticity to semilinear and nonlinear elastic response, to pa...
Summarization: A particle velocity‐stress, finite‐difference method is developed for the simulation ...