In this paper, a novel model for stress-induced martensitic transformations in shape-memory alloys is proposed. Accordingly, the constitutive pseudo-elastic behavior of these materials is described. The model accounts for the possible co-existence of austenitic/martensitic phases and for asymmetric response in tension and compression (both for transformation and stiffness properties). The model is developed under the assumption of ideal behavior during martensitic transformation, and the predicted response is governed by few parameters, standard in the context of shape-memory alloys' constitutive models, that can be straightforwardly identified from experimental data. Moreover, proposed modeling framework opens to the investigation on the e...
A constitutive model to describe macroscopic elastic and transformation behaviors of polycrystalline...
Stimulated by recent experimental results on superelastic NiTi shape memory alloy, a theoretical stu...
Shape memory alloys (SMAs) are metallic materials that have the ability to ”re member” their previou...
In this paper, a novel model for stress-induced martensitic transformations in shape-memory alloys ...
A continuum-level constitutive model for martensitic phase transformations in shape-memory alloys (S...
Shape Memory Alloys (SMA) exhibit a complex thermomechanical behavior induced by the occurrence of p...
AbstractA multi-dimensional continuum-level constitutive model of shape memory alloys exhibiting pse...
AbstractIn the present work we propose a new thermomechanically coupled material model for shape mem...
This paper presents a three-dimensional constitutive model for shape-memory alloys that generalizes ...
Shape memory alloys (SMAs) belong to a group of functional materials with the unique property of “re...
Many models simulating the behavior of Shape Memory Alloys (SMA) exist nowadays, in the one or three...
AbstractThis paper presents a unified modelling effort to describe partial phase transformation duri...
Nickel titanium (NiTi) alloys possess unique characteristics that provide them the ability to recove...
This paper presents a constitutive model for shape-memory alloys that builds on ideas generated from...
In shape memory alloys, some exceptional effects, like the one- and two-way shape memory effect, are...
A constitutive model to describe macroscopic elastic and transformation behaviors of polycrystalline...
Stimulated by recent experimental results on superelastic NiTi shape memory alloy, a theoretical stu...
Shape memory alloys (SMAs) are metallic materials that have the ability to ”re member” their previou...
In this paper, a novel model for stress-induced martensitic transformations in shape-memory alloys ...
A continuum-level constitutive model for martensitic phase transformations in shape-memory alloys (S...
Shape Memory Alloys (SMA) exhibit a complex thermomechanical behavior induced by the occurrence of p...
AbstractA multi-dimensional continuum-level constitutive model of shape memory alloys exhibiting pse...
AbstractIn the present work we propose a new thermomechanically coupled material model for shape mem...
This paper presents a three-dimensional constitutive model for shape-memory alloys that generalizes ...
Shape memory alloys (SMAs) belong to a group of functional materials with the unique property of “re...
Many models simulating the behavior of Shape Memory Alloys (SMA) exist nowadays, in the one or three...
AbstractThis paper presents a unified modelling effort to describe partial phase transformation duri...
Nickel titanium (NiTi) alloys possess unique characteristics that provide them the ability to recove...
This paper presents a constitutive model for shape-memory alloys that builds on ideas generated from...
In shape memory alloys, some exceptional effects, like the one- and two-way shape memory effect, are...
A constitutive model to describe macroscopic elastic and transformation behaviors of polycrystalline...
Stimulated by recent experimental results on superelastic NiTi shape memory alloy, a theoretical stu...
Shape memory alloys (SMAs) are metallic materials that have the ability to ”re member” their previou...