Add to ORKGAbstract. We investigate the statistics of the transformation-strains that arise in random martensitic polycrystals as boundary conditions cause its component crystallites to undergo martensitic phase transitions. In our one-dimensional polycrystal model the orientation of the n grains is given by an uncorrelated random array of the orientation angles θi, i = 1,..., n. Under imposed boundary conditions the polycrystal grains may undergo a martensitic transformation. The associated transformation strains εi, i = 1,..., n depend on the array of orientation angles, and they can be obtained as a solution to a nonlinear optimization problem. While the random variables θi, i = 1,..., n are uncorrelated, the random variables εi, i = 1,..., n may b...
The homogenized elastic properties of polycrystals depend on the grain morphology and crystallograph...
A three-dimensional phase field model of the martensitic transformation that produces a low symmetry...
Understanding grain growth is key for controlling the microstructure and the mechanical properties o...
We investigate the statistics of the transformation strains that arise in random martensitic polycry...
This paper addresses a model problem of nonlinear homogenization motivated by the study of the shape...
The shape-memory effect is the ability of a material to recover, on heating, apparently plastic defo...
The response of polycrystals to deterministic and random deformations is investigated with respect t...
We study the interplay between martensitic phase transformation and plastic slip in polycrystalline ...
Abstract. Most technologically useful materials possess polycrystalline microstructures composed of ...
International audienceModeling martensitic phase transformation in SMAs has become a key to understa...
International audienceThe spatial variability of stress fields resulting from polycrystalline aggreg...
Based on the knowledge of the anisotropy associated with the martensitic transformations obtained fr...
Shape-memory alloys undergo a solid-to-solid phase transformation involving a change of crystal stru...
International audienceThis paper is concerned with the theoretical prediction of the energy-minimizi...
Shape-memory alloys undergo a solid-to-solid phase transformation involving a change of crystal stru...
The homogenized elastic properties of polycrystals depend on the grain morphology and crystallograph...
A three-dimensional phase field model of the martensitic transformation that produces a low symmetry...
Understanding grain growth is key for controlling the microstructure and the mechanical properties o...
We investigate the statistics of the transformation strains that arise in random martensitic polycry...
This paper addresses a model problem of nonlinear homogenization motivated by the study of the shape...
The shape-memory effect is the ability of a material to recover, on heating, apparently plastic defo...
The response of polycrystals to deterministic and random deformations is investigated with respect t...
We study the interplay between martensitic phase transformation and plastic slip in polycrystalline ...
Abstract. Most technologically useful materials possess polycrystalline microstructures composed of ...
International audienceModeling martensitic phase transformation in SMAs has become a key to understa...
International audienceThe spatial variability of stress fields resulting from polycrystalline aggreg...
Based on the knowledge of the anisotropy associated with the martensitic transformations obtained fr...
Shape-memory alloys undergo a solid-to-solid phase transformation involving a change of crystal stru...
International audienceThis paper is concerned with the theoretical prediction of the energy-minimizi...
Shape-memory alloys undergo a solid-to-solid phase transformation involving a change of crystal stru...
The homogenized elastic properties of polycrystals depend on the grain morphology and crystallograph...
A three-dimensional phase field model of the martensitic transformation that produces a low symmetry...
Understanding grain growth is key for controlling the microstructure and the mechanical properties o...