A general framework able to describe the mechanical behavior of thermo-elastic materials with microcracks is proposed. The main features of our model come from the definition of additional kinetics descriptors, both mechanical and thermal (multifield model). The model is thermodynamically consistent and turns out to be non-local, in that it retains memory of the fine material structure through internal lengths and dispersion properties. It is shown that the multifield model allows us to reveal the presence of the microcracks through a dispersive oscillating behavior and a temperature decrease of microcracks, circumventing well known problems related to standard wave propagation and heat conduction
International audienceThis chapter is mainly concerned with the determination of general relationshi...
We formulate a macroscopic description of the mechanics of damaged materials. To represent the micro...
A non-local damage framework has been coupled with heat transport to model transient thermo-mechanic...
AbstractA Hookean material containing an increasing number of non-interacting microcracks is studied...
This paper deals with a theoretical and computational multiscale-multifield modelling developed to d...
A non-simple continuum model is adopted to grossly describe the behaviour of elastic microcracked bo...
This work is based on the formulation of a continuum model with microstructure for the study of the ...
A continuum model suitable for the description of microcracked bodies is shown. The influence of mic...
A multifield continuum is adopted to grossly describe the dynamical behavior of composite microcrack...
The dynamical behavior of a mono-dimensional bar with distributed microcracks is addressed in terms ...
In this work we present a thermomechanical multiscale constitutive model for materials with microstr...
Microcracks in multi-phase materials are important for durability predictions, since they influence ...
Abstract: The variant of a continuum model describing joint deformation and accumulation of microdam...
Thermodynamic equations for a solid and a solid continuum under stress are derived on the basis of a...
The combination of phenomenological and micromechanical damage mechanics is a promising path to cons...
International audienceThis chapter is mainly concerned with the determination of general relationshi...
We formulate a macroscopic description of the mechanics of damaged materials. To represent the micro...
A non-local damage framework has been coupled with heat transport to model transient thermo-mechanic...
AbstractA Hookean material containing an increasing number of non-interacting microcracks is studied...
This paper deals with a theoretical and computational multiscale-multifield modelling developed to d...
A non-simple continuum model is adopted to grossly describe the behaviour of elastic microcracked bo...
This work is based on the formulation of a continuum model with microstructure for the study of the ...
A continuum model suitable for the description of microcracked bodies is shown. The influence of mic...
A multifield continuum is adopted to grossly describe the dynamical behavior of composite microcrack...
The dynamical behavior of a mono-dimensional bar with distributed microcracks is addressed in terms ...
In this work we present a thermomechanical multiscale constitutive model for materials with microstr...
Microcracks in multi-phase materials are important for durability predictions, since they influence ...
Abstract: The variant of a continuum model describing joint deformation and accumulation of microdam...
Thermodynamic equations for a solid and a solid continuum under stress are derived on the basis of a...
The combination of phenomenological and micromechanical damage mechanics is a promising path to cons...
International audienceThis chapter is mainly concerned with the determination of general relationshi...
We formulate a macroscopic description of the mechanics of damaged materials. To represent the micro...
A non-local damage framework has been coupled with heat transport to model transient thermo-mechanic...