The paper presents an algorithm for calculating the energy loss due to macroscopic eddy currents considering the non-linearity of magnetization characteristics and magnetic hysteresis. It was found that for non-oriented steel sheet with a silicon content of 6.5% and thickness 0.1 mm the consideration of non-linearity and magnetization characteristics has a little effect on the energy loss, at least up to 400 Hz. In the application of the algorithm, there are some limitations resulting from the assumption of the average value of the induction flux in the sample cross-section, numerical problems and hysteresis loop shapes
This paper proposes an advanced approach to construct static hysteresis loop of Grain-Oriented (GO) ...
Energy losses have been investigated as a function of magnetizing frequency (DC - 200 Hz) and peak p...
This article aims to investigate the accuracy in modeling and characterization of the dynamic energy...
The paper presents an algorithm for calculating the energy loss due to macroscopic eddy currents con...
The paper presents a study of the influence of magnetic hysteresis on macroscopic eddy current losse...
The total power loss may be divided into three mayor types: the static hysteresis loss, the classica...
The Pulse Width Modulation (PWM) technique is commonly used to supply modern high-speed electrical m...
The aim of this work is to propose a new approach for the iron losses prediction, in soft magnetic m...
Cutting of electrical steel sheets typically deteriorates the permeability and increases the iron lo...
This paper presents an evaluation method of for specific iron losses in non-oriented laminated steel...
In this paper, the different temperature dependencies of hysteresis and eddy current losses of non-o...
The first part of this thesis deals with the basic division of magnetic circuits and materials which...
Assuming that different energy dissipation mechanisms are at work along hysteresis, a hysteresis los...
© 2019, University of Kragujevac, Faculty of Science. The aim of this paper is to present a comprehe...
This paper proposes a macroscopic model for ferromagnetic hysteresis that is well-suited for finite ...
This paper proposes an advanced approach to construct static hysteresis loop of Grain-Oriented (GO) ...
Energy losses have been investigated as a function of magnetizing frequency (DC - 200 Hz) and peak p...
This article aims to investigate the accuracy in modeling and characterization of the dynamic energy...
The paper presents an algorithm for calculating the energy loss due to macroscopic eddy currents con...
The paper presents a study of the influence of magnetic hysteresis on macroscopic eddy current losse...
The total power loss may be divided into three mayor types: the static hysteresis loss, the classica...
The Pulse Width Modulation (PWM) technique is commonly used to supply modern high-speed electrical m...
The aim of this work is to propose a new approach for the iron losses prediction, in soft magnetic m...
Cutting of electrical steel sheets typically deteriorates the permeability and increases the iron lo...
This paper presents an evaluation method of for specific iron losses in non-oriented laminated steel...
In this paper, the different temperature dependencies of hysteresis and eddy current losses of non-o...
The first part of this thesis deals with the basic division of magnetic circuits and materials which...
Assuming that different energy dissipation mechanisms are at work along hysteresis, a hysteresis los...
© 2019, University of Kragujevac, Faculty of Science. The aim of this paper is to present a comprehe...
This paper proposes a macroscopic model for ferromagnetic hysteresis that is well-suited for finite ...
This paper proposes an advanced approach to construct static hysteresis loop of Grain-Oriented (GO) ...
Energy losses have been investigated as a function of magnetizing frequency (DC - 200 Hz) and peak p...
This article aims to investigate the accuracy in modeling and characterization of the dynamic energy...