We combine a Ginzburg–Landau model for a ferroelastic transition with the theory of micromagnetism to study the magnetostructural behavior leading to multicaloric effects in ferromagnetic shape memory alloys. We analyze the ferroelastic transition under different conditions of temperature, stress and magnetic field and establish the corresponding phase diagram. On the one hand, our results show that the proper combination of both fields may be used to reduce the transition hysteresis and thus improve the reversibility of the related elastocaloric effects, superelasticity and stress-mediated magnetocaloric effects. On the other hand, the stress-free magnetic field-driven and thermally driven magnetostructural evolution provides physical insi...
The superelastic properties and stress-induced martensite (SIM) stabilization have been studied in a...
An overview of the processing, characterization and magnetostructural properties of ferromagnetic Ni...
This paper is to improve our previous phase-transformable material constitutive model (Chen et al., ...
We combine a Ginzburg-Landau model for a ferroelastic transition with the theory of micromagnetism t...
We combine a Ginzburg–Landau model for a ferroelastic transition with the theory of micromagnetism t...
Treballs Finals de Grau de Física, Facultat de Física, Universitat de Barcelona, Any: 2014, Tutora: ...
Magnetic Shape Memory Alloys (MSMAs) have the unique ability to change their shape within a magnetic...
In the present work, the effects of composition and heat treatments and the resulting microstruc- tu...
Ni51.5Fe21.5Ga27.0 single crystals have been subjected to different heat treatments resulting in a d...
We report on the barocaloric and magnetocaloric effects in a series of low-hysteresis Ni-Mn-In magne...
"We have studied the elastocaloric effect in a Co-doped Ni-Mn-Ga magnetic Heusler shape memory alloy...
We develop a combined Ginzburg–Landau/micromagnetic model dealing with conventional and magnetic sha...
The effects of crystallographic orientation, temperature and heat treatment on superelastic response...
We develop a general thermodynamic framework to investigate multicaloric effects in multiferroic mat...
Abstract. The giant magnetically-induced deformation of ferromagnetic shape memory alloys results fr...
The superelastic properties and stress-induced martensite (SIM) stabilization have been studied in a...
An overview of the processing, characterization and magnetostructural properties of ferromagnetic Ni...
This paper is to improve our previous phase-transformable material constitutive model (Chen et al., ...
We combine a Ginzburg-Landau model for a ferroelastic transition with the theory of micromagnetism t...
We combine a Ginzburg–Landau model for a ferroelastic transition with the theory of micromagnetism t...
Treballs Finals de Grau de Física, Facultat de Física, Universitat de Barcelona, Any: 2014, Tutora: ...
Magnetic Shape Memory Alloys (MSMAs) have the unique ability to change their shape within a magnetic...
In the present work, the effects of composition and heat treatments and the resulting microstruc- tu...
Ni51.5Fe21.5Ga27.0 single crystals have been subjected to different heat treatments resulting in a d...
We report on the barocaloric and magnetocaloric effects in a series of low-hysteresis Ni-Mn-In magne...
"We have studied the elastocaloric effect in a Co-doped Ni-Mn-Ga magnetic Heusler shape memory alloy...
We develop a combined Ginzburg–Landau/micromagnetic model dealing with conventional and magnetic sha...
The effects of crystallographic orientation, temperature and heat treatment on superelastic response...
We develop a general thermodynamic framework to investigate multicaloric effects in multiferroic mat...
Abstract. The giant magnetically-induced deformation of ferromagnetic shape memory alloys results fr...
The superelastic properties and stress-induced martensite (SIM) stabilization have been studied in a...
An overview of the processing, characterization and magnetostructural properties of ferromagnetic Ni...
This paper is to improve our previous phase-transformable material constitutive model (Chen et al., ...