It is well-known that the classical linear theory of heat conduction, based on Fourier's law for the thermal flux, predicts that a thermal effects at a point of a body is felt instantly at other points of the body. Therefore in past years several alternative theories of heat conduction have been proposed. In this paper we consider the non-classical theory of thermoelasticity developed by Green and Naghdi (1977) which incorporates the approach based on Fourier's law (referred to as type I), the theory without energy dissipation (type II) and a theory which allows finite wave propagation as well as energy dissipation (type III). Contributions on the Green and Naghdi (GN) approach can be found, among others, in Bargmann and Steinmann (2006) an...
This paper is concerned with a general framework to consistently derive all the variational formulat...
In this paper we perform a thermodynamically consistent theory for second gradient Green-Naghdi revi...
A variational formulation of the coupled thermo-mechanical boundary-value problem for general dissip...
It is well-known that the classical linear theory of heat conduction, based on Fourier's law for the...
This study is concerned with a thermo-elasto-plastic continuum in which the thermodynamic coupling b...
This chapter provides a general and self-contained overview of the variational approach to nonlinear...
A variational formulation of the coupled thermo-mechanical boundary-value problem for general dissip...
A thermodynamically consistent model of non-classical coupled non-linear thermoelasticity capable of...
The nonlinear thermoelasticity of type II proposed by Green and Naghdi is considered. The thermoelas...
In the early 1990s, Green and Naghdi introduced a theory attracting interest as heat propagates as t...
The theory of thermoelasticity with thermal relaxation for homogeneous materials is formulated upon ...
International audienceWe study the coupled thermo-mechanical problem that is obtained by com-bining ...
A mathematical statement for the coupled stationary thermoelasticity is given on the basis of a vari...
When designing mechanical equipment, in numerous cases thermal effects have to be taken into conside...
In this paper, we use the Green-Naghdi theory of thermomechanics of continua to derive a nonlinear t...
This paper is concerned with a general framework to consistently derive all the variational formulat...
In this paper we perform a thermodynamically consistent theory for second gradient Green-Naghdi revi...
A variational formulation of the coupled thermo-mechanical boundary-value problem for general dissip...
It is well-known that the classical linear theory of heat conduction, based on Fourier's law for the...
This study is concerned with a thermo-elasto-plastic continuum in which the thermodynamic coupling b...
This chapter provides a general and self-contained overview of the variational approach to nonlinear...
A variational formulation of the coupled thermo-mechanical boundary-value problem for general dissip...
A thermodynamically consistent model of non-classical coupled non-linear thermoelasticity capable of...
The nonlinear thermoelasticity of type II proposed by Green and Naghdi is considered. The thermoelas...
In the early 1990s, Green and Naghdi introduced a theory attracting interest as heat propagates as t...
The theory of thermoelasticity with thermal relaxation for homogeneous materials is formulated upon ...
International audienceWe study the coupled thermo-mechanical problem that is obtained by com-bining ...
A mathematical statement for the coupled stationary thermoelasticity is given on the basis of a vari...
When designing mechanical equipment, in numerous cases thermal effects have to be taken into conside...
In this paper, we use the Green-Naghdi theory of thermomechanics of continua to derive a nonlinear t...
This paper is concerned with a general framework to consistently derive all the variational formulat...
In this paper we perform a thermodynamically consistent theory for second gradient Green-Naghdi revi...
A variational formulation of the coupled thermo-mechanical boundary-value problem for general dissip...