Add to ORKGAfter a brief introduction to the physical and mathematical problem related—not only—to shape-memory alloys and a review of different variational models for thin martensitic films, a numerical approach based on the first laminate is proposed, followed by computational experiments
Shape Memory Alloys (SMAs) are metal alloys which are capable of changing their crystallographic str...
A continuum-mechanical description of the stored energy in shape-memory alloys is presented, with it...
Shape memory alloys (SMAs) have been extensively investigated because of their unique shape memory b...
Following the derivation of the energy functional of martensitic thin films by Bhattacharya and James...
This work deals with the modelling of shape-memory alloys, in particular with the steady-state model...
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...
Shape-memory alloys have the largest energy output per unit volume per cycle of known actuator syste...
Shape-memory alloys have the largest energy output per unit volume per cycle of known actuator syste...
Un modèle de comportement thermomécanique pour les alliages à mémoire de forme est présenté. Il pren...
Shape Memory Alloys (SMA) exhibit a complex thermomechanical behavior induced by the occurrence of p...
A constitutive thermomechanical model for the behavior of shape memory alloys is presented. It takes...
The present paper develops a refined and general three-dimensional phenomenological constitutive mo...
AbstractHere, the effects of localization and propagation of martensitic phase transformation on the...
The present paper develops a refined and general three-dimensional phenomenological constitutive mo...
Shape Memory Alloys (SMAs) are metal alloys which are capable of changing their crystallographic str...
A continuum-mechanical description of the stored energy in shape-memory alloys is presented, with it...
Shape memory alloys (SMAs) have been extensively investigated because of their unique shape memory b...
Following the derivation of the energy functional of martensitic thin films by Bhattacharya and James...
This work deals with the modelling of shape-memory alloys, in particular with the steady-state model...
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...
Shape-memory alloys have the largest energy output per unit volume per cycle of known actuator syste...
Shape-memory alloys have the largest energy output per unit volume per cycle of known actuator syste...
Un modèle de comportement thermomécanique pour les alliages à mémoire de forme est présenté. Il pren...
Shape Memory Alloys (SMA) exhibit a complex thermomechanical behavior induced by the occurrence of p...
A constitutive thermomechanical model for the behavior of shape memory alloys is presented. It takes...
The present paper develops a refined and general three-dimensional phenomenological constitutive mo...
AbstractHere, the effects of localization and propagation of martensitic phase transformation on the...
The present paper develops a refined and general three-dimensional phenomenological constitutive mo...
Shape Memory Alloys (SMAs) are metal alloys which are capable of changing their crystallographic str...
A continuum-mechanical description of the stored energy in shape-memory alloys is presented, with it...
Shape memory alloys (SMAs) have been extensively investigated because of their unique shape memory b...