In this paper, the necessary and sufficient conditions for fulfilling the thermodynamic consistency of computational homogenization schemes in the framework of hierarchical multiscale theories are defined. The proposal is valid for arbitrary homogenization based multiscale procedures, including continuum and discontinuum methods in either scale. It is demonstrated that the well-known Hill-Mandel variational criterion for homogenization scheme is a necessary, but not a sufficient condition for the micro-macro thermodynamic consistency when dissipative material responses are involved at any scale. In this sense, the additional condition to be fulfilled considering that the multiscale thermodynamic consistency is established. The general case ...
BackgroundComputational homogenization is a well-established approach in material modeling with the ...
In this paper, a review of papers on mathematical homogenization of dissipative composites under sma...
We present an extension of the computational homogenization theory to cases where different structur...
The prediction of failure processes in composite, heterogeneous materials require multiscale analysi...
A multiscale framework for thermo-mechanical analysis with phase transformations is proposed in this...
In this work we present a thermomechanical multiscale constitutive model for materials with microstr...
In this work, a general thermodynamically consistent theory is proposed for multiscale homogenizatio...
In this paper we discuss two multi-scale procedures, both of mathematical nature as opposed to purel...
Restricted until 25 Jan. 2012.The main objective of the dissertation is to develop multi-scale algor...
This study aims to establish a framework for multiscale assessment of damage for materials with evol...
We discuss the role of thermodynamic consistency in multiphysics and multiscale models, and how it c...
All materials are heterogeneous at various scales of observation. The influence of material heterog...
A spatial and temporal multiscale asymptotic homogenization method used to simulate thermo-dynamic w...
The asymptotic expansion treatment of the homogenization problem for nonlinear purely mechanical or ...
A fundamental understanding of the interaction between microstructure and underlying physical mechan...
BackgroundComputational homogenization is a well-established approach in material modeling with the ...
In this paper, a review of papers on mathematical homogenization of dissipative composites under sma...
We present an extension of the computational homogenization theory to cases where different structur...
The prediction of failure processes in composite, heterogeneous materials require multiscale analysi...
A multiscale framework for thermo-mechanical analysis with phase transformations is proposed in this...
In this work we present a thermomechanical multiscale constitutive model for materials with microstr...
In this work, a general thermodynamically consistent theory is proposed for multiscale homogenizatio...
In this paper we discuss two multi-scale procedures, both of mathematical nature as opposed to purel...
Restricted until 25 Jan. 2012.The main objective of the dissertation is to develop multi-scale algor...
This study aims to establish a framework for multiscale assessment of damage for materials with evol...
We discuss the role of thermodynamic consistency in multiphysics and multiscale models, and how it c...
All materials are heterogeneous at various scales of observation. The influence of material heterog...
A spatial and temporal multiscale asymptotic homogenization method used to simulate thermo-dynamic w...
The asymptotic expansion treatment of the homogenization problem for nonlinear purely mechanical or ...
A fundamental understanding of the interaction between microstructure and underlying physical mechan...
BackgroundComputational homogenization is a well-established approach in material modeling with the ...
In this paper, a review of papers on mathematical homogenization of dissipative composites under sma...
We present an extension of the computational homogenization theory to cases where different structur...