This paper proposes a macroscopic model for ferromagnetic hysteresis that is well-suited for finite element implementation. The model relies on a consistent thermodynamic formulation. The stored magnetic energy and the dissipated energy are known at all times and not solely after the completion of closed hysteresis loops as is usually the case
The paper presents the state of the art and the problems already open in modelling the hysteresis ph...
We propose a simplified dynamic hysteresis model for the prediction of magnetization behavior of ele...
The paper presents an algorithm for calculating the energy loss due to macroscopic eddy currents con...
This paper focuses on ferromagnetic hysteresis phenomena, a crucial point in the evaluation of iron ...
International audienceThis paper proposes a macroscopic model for ferromagnetic hysteresis that is w...
© 2018 IEEE. For accurate computation of core losses, the Jiles-Atherton ( J - A ) dynamic hysteresi...
A novel approach for predicting magnetic hysteresis loops and losses in ferromagnetic laminations un...
A new implementation of an iron-loss model for laminated magnetic cores in the MATLAB / Simulink env...
This paper proposes a model for the computation of iron losses in steel laminations accounting simul...
An iron-loss model for laminated ferromagnetic cores of electrical machines is presented and applied...
© 2018 IEEE. A new implementation of an iron-loss model for laminated magnetic cores in the MATLAB/S...
This work focuses on the development of a highly accurate energy-based hysteresismodel for the model...
This paper proposes a macroscopic model for ferromagnetic hysteresis that is well-suited for finite...
We consider the quasi-static magnetic hysteresis model based on a dry-friction like representation o...
This paper compares two implementations of an energy-based ferromagnetic hysteresis model for finite...
The paper presents the state of the art and the problems already open in modelling the hysteresis ph...
We propose a simplified dynamic hysteresis model for the prediction of magnetization behavior of ele...
The paper presents an algorithm for calculating the energy loss due to macroscopic eddy currents con...
This paper focuses on ferromagnetic hysteresis phenomena, a crucial point in the evaluation of iron ...
International audienceThis paper proposes a macroscopic model for ferromagnetic hysteresis that is w...
© 2018 IEEE. For accurate computation of core losses, the Jiles-Atherton ( J - A ) dynamic hysteresi...
A novel approach for predicting magnetic hysteresis loops and losses in ferromagnetic laminations un...
A new implementation of an iron-loss model for laminated magnetic cores in the MATLAB / Simulink env...
This paper proposes a model for the computation of iron losses in steel laminations accounting simul...
An iron-loss model for laminated ferromagnetic cores of electrical machines is presented and applied...
© 2018 IEEE. A new implementation of an iron-loss model for laminated magnetic cores in the MATLAB/S...
This work focuses on the development of a highly accurate energy-based hysteresismodel for the model...
This paper proposes a macroscopic model for ferromagnetic hysteresis that is well-suited for finite...
We consider the quasi-static magnetic hysteresis model based on a dry-friction like representation o...
This paper compares two implementations of an energy-based ferromagnetic hysteresis model for finite...
The paper presents the state of the art and the problems already open in modelling the hysteresis ph...
We propose a simplified dynamic hysteresis model for the prediction of magnetization behavior of ele...
The paper presents an algorithm for calculating the energy loss due to macroscopic eddy currents con...