Add to ORKGABSTRACT Elastic materials whose local state depends upon the first and second order gradients of the deformation, the temperature, its gradient and the time rate of change of the temperature are studied according to an inequality proposed by Green and Laws. It is shown that in such materials either thermal disturbances can propagate with finite speed in the linear theory, and the constitutive quantities do not depend upon the second order gradients of the deformation or the constitutive quantities may depend upon the second order gradients of the deformation and in the linear theory thermal disturbances do not propagate with finite speed. In the latter case the entropy inequality reduces to the Clausius-Duhem inequality
In the context of a temperature-rate dependent formulation, constitutive equations and thermodynamic...
In the context of a temperature-rate dependent formulation, constitutive equations and thermodynamic...
In the context of a temperature-rate dependent formulation, constitutive equations and thermodynamic...
An alternative and consistent approach, not appealing to the principle of virtual power and to Colem...
Recently [1] thermodynamic theory of elastic (and viscoelastic) material bodies has been analyzed ba...
A gradient plasticity theory for small deformations is presented within the framework of nonlocal co...
A gradient plasticity theory for small deformations is presented within the framework of nonlocal co...
A thermodynamic theory was set up for general bodies of the differential type and complexity one wit...
International audienceThe objective of the present work is to compare several thermomechanical frame...
Using either the classical rational thermodynamics of B. D. Coleman and W. Noll (basic argument: che...
We present the constitutive restrictions for a deformable simple medium that is heat conducting, ele...
We investigate three classes of constraints in a thermoelastic body: (i) a deformation-temperature c...
We investigate three classes of constraints in a thermoelastic body: (i) a deformation-temperature c...
Abstract. Thermodynamic restrictions of elastic materials in general are well-known based on the Cla...
In the context of a temperature-rate dependent formulation, constitutive equations and thermodynamic...
In the context of a temperature-rate dependent formulation, constitutive equations and thermodynamic...
In the context of a temperature-rate dependent formulation, constitutive equations and thermodynamic...
In the context of a temperature-rate dependent formulation, constitutive equations and thermodynamic...
An alternative and consistent approach, not appealing to the principle of virtual power and to Colem...
Recently [1] thermodynamic theory of elastic (and viscoelastic) material bodies has been analyzed ba...
A gradient plasticity theory for small deformations is presented within the framework of nonlocal co...
A gradient plasticity theory for small deformations is presented within the framework of nonlocal co...
A thermodynamic theory was set up for general bodies of the differential type and complexity one wit...
International audienceThe objective of the present work is to compare several thermomechanical frame...
Using either the classical rational thermodynamics of B. D. Coleman and W. Noll (basic argument: che...
We present the constitutive restrictions for a deformable simple medium that is heat conducting, ele...
We investigate three classes of constraints in a thermoelastic body: (i) a deformation-temperature c...
We investigate three classes of constraints in a thermoelastic body: (i) a deformation-temperature c...
Abstract. Thermodynamic restrictions of elastic materials in general are well-known based on the Cla...
In the context of a temperature-rate dependent formulation, constitutive equations and thermodynamic...
In the context of a temperature-rate dependent formulation, constitutive equations and thermodynamic...
In the context of a temperature-rate dependent formulation, constitutive equations and thermodynamic...
In the context of a temperature-rate dependent formulation, constitutive equations and thermodynamic...