The most common constitutive relation in acoustoelasticity is the second-order constitutive relation expressed in terms of the Green-Lagrange strain tensor. This material model is characterized by the high sensitivity of material parameters to the small measurement errors. This rather bad property leads to the proposal of another material model with the second-order constitutive relation expressed in terms of the logarithmic strain tensor. For this material model the acoustic wave velocities were derived for three different types of homogeneous pre-stress
International audienceThe nonlinear elasticity of solids at the microstrain level has been recently ...
Acousto-elasticity is concerned with the propagation of small-amplitude waves in deformed solids. Re...
A new model that accounts for the stress dependence of the phase velocity of elastodynamic waves pro...
Velocities of the acoustoelastic waves in prestress contiuum were derived from the material model ba...
On the basis of the nonlinear theory of elasticity, the general constitutive equation for an isotrop...
On the basis of the nonlinear theory of elasticity, the general constitutive equation for an isotrop...
Consider the constitutive law for an isotropic elastic solid with the strain-energy function expande...
Wave propagation in prestressed and prestrained continua can be modelled by the theory of acoustoela...
The paper studies the applicability of the acoustoelasticity method to estimation of the strain-stre...
This paper presents a new method for determining the third-order elastic constants (TOECs) of a homo...
Classical acoustoelasticity couples small-amplitude elastic wave propagation to an infinitesimal pre...
Consider the constitutive law for an isotropic elastic solid with the strain-energy function expande...
Herein we derive, under the micromechanical model we proposed earlier, Man and Paroni [14], a comple...
Elastic constants of polycrystalline materials can be obtained through methods of ensemble averages ...
Acousto-elasticity is concerned with the propagation of small-amplitude waves in deformed solids. Re...
International audienceThe nonlinear elasticity of solids at the microstrain level has been recently ...
Acousto-elasticity is concerned with the propagation of small-amplitude waves in deformed solids. Re...
A new model that accounts for the stress dependence of the phase velocity of elastodynamic waves pro...
Velocities of the acoustoelastic waves in prestress contiuum were derived from the material model ba...
On the basis of the nonlinear theory of elasticity, the general constitutive equation for an isotrop...
On the basis of the nonlinear theory of elasticity, the general constitutive equation for an isotrop...
Consider the constitutive law for an isotropic elastic solid with the strain-energy function expande...
Wave propagation in prestressed and prestrained continua can be modelled by the theory of acoustoela...
The paper studies the applicability of the acoustoelasticity method to estimation of the strain-stre...
This paper presents a new method for determining the third-order elastic constants (TOECs) of a homo...
Classical acoustoelasticity couples small-amplitude elastic wave propagation to an infinitesimal pre...
Consider the constitutive law for an isotropic elastic solid with the strain-energy function expande...
Herein we derive, under the micromechanical model we proposed earlier, Man and Paroni [14], a comple...
Elastic constants of polycrystalline materials can be obtained through methods of ensemble averages ...
Acousto-elasticity is concerned with the propagation of small-amplitude waves in deformed solids. Re...
International audienceThe nonlinear elasticity of solids at the microstrain level has been recently ...
Acousto-elasticity is concerned with the propagation of small-amplitude waves in deformed solids. Re...
A new model that accounts for the stress dependence of the phase velocity of elastodynamic waves pro...