This paper compares different energy-based magneto-mechanical models, which describe the magnetization changes that a magnetostrictive and anisotropic material undergoes when subjected to a quasi-static H-field excitation and tensile or compressive external stress. The magnetic behavior is either characterized by considering the phenomenological energy-based Hauser hysteresis model or by the recently introduced hysteresis energy. The effect of mechanical stress is included naturally in the energy summation of the multiscale models. Properties of the different models, such as accuracy and parameter identification, are illustrated by comparison with experimental data for a nonoriented FeSi3% electrical steel grade.status: publishe
A coupled magneto-mechanical model for hysteresis in an electrical steel sheet is presented. The fou...
International audienceMagneto-mechanical coupling effects play a significant role in the performance...
International audienceThe magneto-mechanical effect combines the magnetic field and stress sigma, ma...
This paper compares different energy-based magneto-mechanical models, which describe the magnetizati...
The abilities of a simplified multiscale and a Helmholtz energy HE models models from the literature...
| openaire: EC/FP7/339380/EU//ALEMThe abilities of a simplified multiscale and a Helmholtz energy HE...
A simplified multiscale approach and a Helmholtz free energy based approach for modeling the magneto...
International audienceA simplified multiscale approach and a Helmholtz energy based approach for mod...
This paper proposes a multi-scale energy-based material model for poly-crystalline materials. Descri...
This thesis studies multiaxial magneto-mechanical interactions in electrical steel sheets with parti...
International audienceMagnetic and mechanical behaviour are strongly coupled: an applied stress modi...
International audienceAccurate modeling of the coupling between mechanical and magnetic behavior is ...
International audienceCompact and high speed electromechanical systems lead to higher and higher lev...
An energy-based approach for anisotropic modeling of stress-dependent magnetization curves in electr...
A coupled magneto-mechanical model for hysteresis in an electrical steel sheet is presented. The fou...
International audienceMagneto-mechanical coupling effects play a significant role in the performance...
International audienceThe magneto-mechanical effect combines the magnetic field and stress sigma, ma...
This paper compares different energy-based magneto-mechanical models, which describe the magnetizati...
The abilities of a simplified multiscale and a Helmholtz energy HE models models from the literature...
| openaire: EC/FP7/339380/EU//ALEMThe abilities of a simplified multiscale and a Helmholtz energy HE...
A simplified multiscale approach and a Helmholtz free energy based approach for modeling the magneto...
International audienceA simplified multiscale approach and a Helmholtz energy based approach for mod...
This paper proposes a multi-scale energy-based material model for poly-crystalline materials. Descri...
This thesis studies multiaxial magneto-mechanical interactions in electrical steel sheets with parti...
International audienceMagnetic and mechanical behaviour are strongly coupled: an applied stress modi...
International audienceAccurate modeling of the coupling between mechanical and magnetic behavior is ...
International audienceCompact and high speed electromechanical systems lead to higher and higher lev...
An energy-based approach for anisotropic modeling of stress-dependent magnetization curves in electr...
A coupled magneto-mechanical model for hysteresis in an electrical steel sheet is presented. The fou...
International audienceMagneto-mechanical coupling effects play a significant role in the performance...
International audienceThe magneto-mechanical effect combines the magnetic field and stress sigma, ma...