Cataloged from PDF version of article.The asymptotic expansion treatment of the homogenization problem for nonlinear purely mechanical or thermal problems exists, together with the treatment of the coupled problem in the linearized setting. In this contribution, an asymptotic expansion approach to homogenization in finite thermoelasticity is presented. The treatment naturally enforces a separation of scales, thereby inducing a first-order homogenization framework that is suitable for computational implementation. Within this framework two microscopically uncoupled cell problems, where a purely mechanical one is followed by a purely thermal one, are obtained. The results are in agreement with a recently proposed approach based on the explici...
The prediction of failure processes in composite, heterogeneous materials require multiscale analysi...
This paper presents a two-scale thermo-mechanical analysis framework for heterogeneous solids based ...
The objective of this contribution is to present a unifying review on strain-driven computational ho...
The asymptotic expansion treatment of the homogenization problem for nonlinear purely mechanical or ...
AbstractThe variational asymptotic method is used to construct a thermomechanical model for homogeni...
The current work deals with periodic composite media undergoing fully coupled thermomechanical loadi...
International audienceIn this paper we derive a macroscopic model for thermoporoelasticity from the ...
Cataloged from PDF version of article.A computational homogenization framework is developed in the c...
In this paper, the necessary and sufficient conditions for fulfilling the thermodynamic consistency ...
The current work deals with periodic thermomechanical composite media, in which the material constit...
We undertake a formal derivation of a linear poro-thermo-elastic system within the framework of quas...
In this paper we derive a macroscopic model for thermoporoelasticity from the pore scale linearized ...
This thesis is concerned with the mathematical homogenization of thermoelasticity models with moving...
A fundamental understanding of the interaction between microstructure and underlying physical mechan...
Many engineering and scientific problems require a full understanding of physical phenomena that spa...
The prediction of failure processes in composite, heterogeneous materials require multiscale analysi...
This paper presents a two-scale thermo-mechanical analysis framework for heterogeneous solids based ...
The objective of this contribution is to present a unifying review on strain-driven computational ho...
The asymptotic expansion treatment of the homogenization problem for nonlinear purely mechanical or ...
AbstractThe variational asymptotic method is used to construct a thermomechanical model for homogeni...
The current work deals with periodic composite media undergoing fully coupled thermomechanical loadi...
International audienceIn this paper we derive a macroscopic model for thermoporoelasticity from the ...
Cataloged from PDF version of article.A computational homogenization framework is developed in the c...
In this paper, the necessary and sufficient conditions for fulfilling the thermodynamic consistency ...
The current work deals with periodic thermomechanical composite media, in which the material constit...
We undertake a formal derivation of a linear poro-thermo-elastic system within the framework of quas...
In this paper we derive a macroscopic model for thermoporoelasticity from the pore scale linearized ...
This thesis is concerned with the mathematical homogenization of thermoelasticity models with moving...
A fundamental understanding of the interaction between microstructure and underlying physical mechan...
Many engineering and scientific problems require a full understanding of physical phenomena that spa...
The prediction of failure processes in composite, heterogeneous materials require multiscale analysi...
This paper presents a two-scale thermo-mechanical analysis framework for heterogeneous solids based ...
The objective of this contribution is to present a unifying review on strain-driven computational ho...