The aim of this paper is to evaluate the magnetic properties and losses of the Fe-9Cr steel under nonperiodic conditions of the magnetic field. A new approach combining an optimized linear problem and properties of the classical Preisach theory is adopted and described. An experimental analysis is carried out to characterize quasi-static major loop and dynamic cycles obtained at different rate of the driving magnetic field H. After a series of quasi-static major loops, dynamic cycles are defined in a first case varying H from the saturation to its opposite value and in a second case forming minor asymmetric loops. In both the cases, hysteresis and eddy current losses are estimated via the proposed method. Total losses are compared with meas...
Purpose - Mechanical stress can heavily affect the magnetic behaviour law in ferromagnetic materials...
The paper presents an algorithm for calculating the energy loss due to macroscopic eddy currents con...
In this paper, the computation of the macroscopic fields inside ferromagnetic laminations is discuss...
The aim of this paper is to evaluate the magnetic properties and losses of the Fe-9Cr steel under no...
© 2019, University of Kragujevac, Faculty of Science. The aim of this paper is to present a comprehe...
Two hysteresis models are investigated for modeling static hysteresis phenomenon in nonoriented magn...
An improved anisotropic vector Preisach model is proposed in this paper to describe the hysteresis p...
Fe-based amorphous magnetic materials are attracting more and more attentions in the application of ...
Magnetic materials are very popular for high frequency power conversion and their operation frequenc...
The aim of this work is to propose a new approach for the iron losses prediction, in soft magnetic m...
This article aims to investigate the accuracy in modeling and characterization of the dynamic energy...
When studying transients in pulsed current traction motors, it is important to take into considerati...
An accurate estimation of losses in magnetic materials is important for the design of electromagneti...
Magnetic materials exhibit non-linear, hysteretic, and dynamic characteristics due to presence of cl...
The Preisach model is addressed as a promising hysteresis model which is broadly employed and invest...
Purpose - Mechanical stress can heavily affect the magnetic behaviour law in ferromagnetic materials...
The paper presents an algorithm for calculating the energy loss due to macroscopic eddy currents con...
In this paper, the computation of the macroscopic fields inside ferromagnetic laminations is discuss...
The aim of this paper is to evaluate the magnetic properties and losses of the Fe-9Cr steel under no...
© 2019, University of Kragujevac, Faculty of Science. The aim of this paper is to present a comprehe...
Two hysteresis models are investigated for modeling static hysteresis phenomenon in nonoriented magn...
An improved anisotropic vector Preisach model is proposed in this paper to describe the hysteresis p...
Fe-based amorphous magnetic materials are attracting more and more attentions in the application of ...
Magnetic materials are very popular for high frequency power conversion and their operation frequenc...
The aim of this work is to propose a new approach for the iron losses prediction, in soft magnetic m...
This article aims to investigate the accuracy in modeling and characterization of the dynamic energy...
When studying transients in pulsed current traction motors, it is important to take into considerati...
An accurate estimation of losses in magnetic materials is important for the design of electromagneti...
Magnetic materials exhibit non-linear, hysteretic, and dynamic characteristics due to presence of cl...
The Preisach model is addressed as a promising hysteresis model which is broadly employed and invest...
Purpose - Mechanical stress can heavily affect the magnetic behaviour law in ferromagnetic materials...
The paper presents an algorithm for calculating the energy loss due to macroscopic eddy currents con...
In this paper, the computation of the macroscopic fields inside ferromagnetic laminations is discuss...