For a specific notion of convergence, a representation formula for the energy of a structured deformation is obtained. The corresponding bulk and surface densities are determined by the lower semicontinuous and convex envelope and by the subadditive envelope, respectively, of the bulk and surface energy densities assumed for simple deformation
A method based on energy is a very useful tool for description of mechanical properties of materials...
In my thesis, we derive a two dimensional energy model for deformations of unloaded elastic films as...
I discuss the model of an elastic bar with interface energy at the jump points of the displacement f...
Structured deformations are objects conceived to describe geometrically the changes occurring in the...
An energy for first-order structured deformations in the context of periodic homogenization is obtai...
International audienceThe objective of this contribution is to formulate a geometrically nonlinear t...
The present communication refers to some research in progress, based upon the use of structured defo...
The theory of structured deformations shows good potential to deal with mechanical problems where mu...
International audienceWithin continuum dislocation theory, one-dimensional energy functional of a be...
The scope of this contribution is to present an overview of the theory of structured deformations of...
The behavior of a curved thin film made of a nonsimple grade two material isdescribed ...
We derive stretching and bending energies for isotropic elastic plates and shells. Through the dimen...
Most quasi-static variational models of fracture are based on the splitting of the energy functional...
A method based on energy is a very useful tool for description of mechanical properties of materials...
Second-order structured deformations of continua provide an extension of the multiscale geometry of ...
A method based on energy is a very useful tool for description of mechanical properties of materials...
In my thesis, we derive a two dimensional energy model for deformations of unloaded elastic films as...
I discuss the model of an elastic bar with interface energy at the jump points of the displacement f...
Structured deformations are objects conceived to describe geometrically the changes occurring in the...
An energy for first-order structured deformations in the context of periodic homogenization is obtai...
International audienceThe objective of this contribution is to formulate a geometrically nonlinear t...
The present communication refers to some research in progress, based upon the use of structured defo...
The theory of structured deformations shows good potential to deal with mechanical problems where mu...
International audienceWithin continuum dislocation theory, one-dimensional energy functional of a be...
The scope of this contribution is to present an overview of the theory of structured deformations of...
The behavior of a curved thin film made of a nonsimple grade two material isdescribed ...
We derive stretching and bending energies for isotropic elastic plates and shells. Through the dimen...
Most quasi-static variational models of fracture are based on the splitting of the energy functional...
A method based on energy is a very useful tool for description of mechanical properties of materials...
Second-order structured deformations of continua provide an extension of the multiscale geometry of ...
A method based on energy is a very useful tool for description of mechanical properties of materials...
In my thesis, we derive a two dimensional energy model for deformations of unloaded elastic films as...
I discuss the model of an elastic bar with interface energy at the jump points of the displacement f...
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