We study the interplay between martensitic phase transformation and plastic slip in polycrystalline media. The work is motivated by the phenomenon of superelasticity – the ability of the material to recover strains beyond their apparent elastic limit – observed in shape-memory alloys. Often the recovery is not perfect with residual strain after a deformation and recovery cycle, and the stress–strain curve changes with cycling. We develop a mesoscale model at the single crystal level, and use it to study polycrystals. The model is able to reproduce various observations and provide important insight into the interplay. In particular, we show that transformation and plasticity can occur synergistically, with plasticity providing a mechanism fo...
We introduce a framework for modeling elastic properties of shape memory alloy polycrystals by coupl...
Introduction; plasticity by twinning Plasticity in metals can be caused, beside a classical slip me...
Abstract. Quantitative micromechanics descriptions of both transformation-induced plasticity (TRIP) ...
We study the interplay between martensitic phase transformation and plastic slip in polycrystalline ...
The shape-memory effect is the ability of a material to recover, on heating, apparently plastic defo...
Shape-memory alloys undergo a solid-to-solid phase transformation involving a change of crystal stru...
This paper focuses on the issue plasticity within the framework of a micromechanical model for singl...
Shape-memory alloys undergo a solid-to-solid phase transformation involving a change of crystal stru...
Many alloys display the shape-memory effect in single crystal form, however the degree to which they...
Stimulated by recent experimental results on superelastic NiTi shape memory alloy, a theoretical stu...
Shape-memory behavior is the ability of certain materials to recover, on heating, apparently plastic...
Stress-induced martensitic transformation in single crystals and polycrystals are examined on the ba...
Based on the knowledge of the anisotropy associated with the martensitic transformations obtained fr...
[[abstract]]Based on a series representation the tensile stress-strain relation of a polycrystal is ...
This study deals with plasticity caused by martensitic transformation. This phase transition is cons...
We introduce a framework for modeling elastic properties of shape memory alloy polycrystals by coupl...
Introduction; plasticity by twinning Plasticity in metals can be caused, beside a classical slip me...
Abstract. Quantitative micromechanics descriptions of both transformation-induced plasticity (TRIP) ...
We study the interplay between martensitic phase transformation and plastic slip in polycrystalline ...
The shape-memory effect is the ability of a material to recover, on heating, apparently plastic defo...
Shape-memory alloys undergo a solid-to-solid phase transformation involving a change of crystal stru...
This paper focuses on the issue plasticity within the framework of a micromechanical model for singl...
Shape-memory alloys undergo a solid-to-solid phase transformation involving a change of crystal stru...
Many alloys display the shape-memory effect in single crystal form, however the degree to which they...
Stimulated by recent experimental results on superelastic NiTi shape memory alloy, a theoretical stu...
Shape-memory behavior is the ability of certain materials to recover, on heating, apparently plastic...
Stress-induced martensitic transformation in single crystals and polycrystals are examined on the ba...
Based on the knowledge of the anisotropy associated with the martensitic transformations obtained fr...
[[abstract]]Based on a series representation the tensile stress-strain relation of a polycrystal is ...
This study deals with plasticity caused by martensitic transformation. This phase transition is cons...
We introduce a framework for modeling elastic properties of shape memory alloy polycrystals by coupl...
Introduction; plasticity by twinning Plasticity in metals can be caused, beside a classical slip me...
Abstract. Quantitative micromechanics descriptions of both transformation-induced plasticity (TRIP) ...