A consistent and unified formulation of Green’s functions for wave propagation in poroelastic solids based on Biot’s theory is given. Over the last decades various authors have made the attempt to derive different Green’s tensor representation for poroelastic solids. Due to the various possible combinations of field variables and source terms the different solutions differ significantly. The main solutions are reviewed and compared. It is shown that these previously reported representations of Green’s tensors can be used in a complementary sense such that all possible combinations of field variables and source types are included. As a new element we introduce the concept of moment tensors for poroelasticity. This allows us to describe sourc...
While the validity of the quasi-static Biot theory of poroelasticity is well established by a large ...
The most commonly used prediction techniques to study the behaviour of poro-elastic materials are ba...
A wave-fluid saturated poroelastic structure interaction model based on the modified Biot theory (MB...
International audienceThe purpose of this paper is to study Green functions for porous saturated med...
We present a derivation of the equations describing wave propagation in porous media based upon an a...
Based on Biot's theory, the dynamic 2.5-D Green's function for a saturated porous medium is obtained...
Biot theory [l] is a basic tool when studying the propagation of elastic waves in porous/fibrous sol...
AbstractBased on Biot’s theory, the dynamic 2.5-D Green’s function for a saturated porous medium is ...
Biot's equations describe the physics of hydromechanically coupled systems establishing the widely r...
Single-mode equivalent space-time representations of the acoustic wave propagating in a Biot poroela...
This thesis is dedicated to study the elastodynamic Green’s tensor in anisotropic medium in order to...
International audienceA wave propagation model in macroscopically inhomogeneous porous media is deri...
In this paper we present a comparison of the linear wave analysis for four models of poroelastic mat...
According to generalized characteristic theory, a characteristic analysis for stress wave propagatio...
Guyenne, PhilippeTwo applications of Biot poroelastic theory are studied, specifically applications ...
While the validity of the quasi-static Biot theory of poroelasticity is well established by a large ...
The most commonly used prediction techniques to study the behaviour of poro-elastic materials are ba...
A wave-fluid saturated poroelastic structure interaction model based on the modified Biot theory (MB...
International audienceThe purpose of this paper is to study Green functions for porous saturated med...
We present a derivation of the equations describing wave propagation in porous media based upon an a...
Based on Biot's theory, the dynamic 2.5-D Green's function for a saturated porous medium is obtained...
Biot theory [l] is a basic tool when studying the propagation of elastic waves in porous/fibrous sol...
AbstractBased on Biot’s theory, the dynamic 2.5-D Green’s function for a saturated porous medium is ...
Biot's equations describe the physics of hydromechanically coupled systems establishing the widely r...
Single-mode equivalent space-time representations of the acoustic wave propagating in a Biot poroela...
This thesis is dedicated to study the elastodynamic Green’s tensor in anisotropic medium in order to...
International audienceA wave propagation model in macroscopically inhomogeneous porous media is deri...
In this paper we present a comparison of the linear wave analysis for four models of poroelastic mat...
According to generalized characteristic theory, a characteristic analysis for stress wave propagatio...
Guyenne, PhilippeTwo applications of Biot poroelastic theory are studied, specifically applications ...
While the validity of the quasi-static Biot theory of poroelasticity is well established by a large ...
The most commonly used prediction techniques to study the behaviour of poro-elastic materials are ba...
A wave-fluid saturated poroelastic structure interaction model based on the modified Biot theory (MB...