Add to ORKGFollowing the derivation of the energy functional of martensitic thin films by Bhattacharya and James (1999) we propose a numerical approach to the relaxation theory of thin films. It is based on the approximation of the corresponding relaxed problem by a first-order laminate. Finally, computational experiments are shown
We present a practical algorithm for partially relaxing multiwell energy densities such as pertain t...
International audienceShape memory alloys exhibit a solid/solid phase transformation between differe...
International audienceThis paper addresses the theoretical prediction of the quasiconvex hull of ene...
After a brief introduction to the physical and mathematical problem related—not only—to shape-memory...
In this contribution, a micro-mechanically motivated, energy relaxation-based constitutive model for...
The aim of the thesis is the mathematical and computer modelling of thin films of martensitic materi...
The aim of the thesis is the mathematical and computer modelling of thin films of martensitic materi...
This work deals with the modelling of shape-memory alloys, in particular with the steady-state model...
A direct derivation is given of a theory for single crystal thin films, starting from three dimensio...
Martensitic microstructures are studied using variational models based on nonlinear elasticity. Some...
We study the behavior of crystals that undergo martensitic transformations. On cooling, the high-tem...
We study the behavior of crystals that undergo martensitic transformations. On cooling, the high-tem...
Summary.: This paper addresses the numerical approximation of microstructures in crystalline phase t...
We present a practical algorithm for partially relaxing multiwell energy densities such as pertain t...
International audienceShape memory alloys exhibit a solid/solid phase transformation between differe...
We present a practical algorithm for partially relaxing multiwell energy densities such as pertain t...
International audienceShape memory alloys exhibit a solid/solid phase transformation between differe...
International audienceThis paper addresses the theoretical prediction of the quasiconvex hull of ene...
After a brief introduction to the physical and mathematical problem related—not only—to shape-memory...
In this contribution, a micro-mechanically motivated, energy relaxation-based constitutive model for...
The aim of the thesis is the mathematical and computer modelling of thin films of martensitic materi...
The aim of the thesis is the mathematical and computer modelling of thin films of martensitic materi...
This work deals with the modelling of shape-memory alloys, in particular with the steady-state model...
A direct derivation is given of a theory for single crystal thin films, starting from three dimensio...
Martensitic microstructures are studied using variational models based on nonlinear elasticity. Some...
We study the behavior of crystals that undergo martensitic transformations. On cooling, the high-tem...
We study the behavior of crystals that undergo martensitic transformations. On cooling, the high-tem...
Summary.: This paper addresses the numerical approximation of microstructures in crystalline phase t...
We present a practical algorithm for partially relaxing multiwell energy densities such as pertain t...
International audienceShape memory alloys exhibit a solid/solid phase transformation between differe...
We present a practical algorithm for partially relaxing multiwell energy densities such as pertain t...
International audienceShape memory alloys exhibit a solid/solid phase transformation between differe...
International audienceThis paper addresses the theoretical prediction of the quasiconvex hull of ene...