Assuming that different energy dissipation mechanisms are at work along hysteresis, a hysteresis loss subdivision procedure has been proposed, using the induction at maximum permeability ( around 0.8 T, in electrical steels) as the boundary between the ""low-induction`` and the ""high-induction`` regions. This paper reviews the most important results obtained in 10 years of investigation of the effect of microstructure on these components of the hysteresis loss. As maximum induction increases, the ""low-induction loss`` increases linearly up to 1.2 T, while the ""high-induction loss`` is zero up to 0.7 T and then increases as a power law with n = 5. Low-induction loss behavior is linearly related to H(c) between 0.4 and 1.2 T. Grain size ha...
For loss prediction of a transformer it is required to model the loss of its core, constructed out o...
Power transformer design requires to model the loss and hysteresis behavior of the laminated steel c...
Square and two-level pulse width modulation (PWM) magnetic induction waveforms are investigated and ...
Assuming that different energy dissipation mechanisms are at work along hysteresis, a hysteresis los...
Twelve samples with different grain sizes were prepared by normal grain growth and by primary recrys...
The hysteresis loss subdivision method proved to be a strong tool to help in the analysis of differe...
This paper discusses the anomalous loss behavior in two electrical steels types. Starting from a non...
This paper discusses the anomalous loss behavior in two electrical steels types. Starting from a non...
Loss separation experiments on non-oriented and grain-oriented 3.2 wt.% SiFe electrical steels have ...
This paper proposes an advanced approach to construct static hysteresis loop of Grain-Oriented (GO) ...
The paper presents an algorithm for calculating the energy loss due to macroscopic eddy currents con...
Two alloys of nonoriented electrical steel, with 2.45 and 3.3 %Si, respectively, had their magnetic ...
For loss prediction of a transformer it is required to model the loss of its core, constructed out o...
Power transformer design requires to model the loss and hysteresis behavior of the laminated steel c...
Square and two-level pulse width modulation (PWM) magnetic induction waveforms are investigated and ...
Assuming that different energy dissipation mechanisms are at work along hysteresis, a hysteresis los...
Twelve samples with different grain sizes were prepared by normal grain growth and by primary recrys...
The hysteresis loss subdivision method proved to be a strong tool to help in the analysis of differe...
This paper discusses the anomalous loss behavior in two electrical steels types. Starting from a non...
This paper discusses the anomalous loss behavior in two electrical steels types. Starting from a non...
Loss separation experiments on non-oriented and grain-oriented 3.2 wt.% SiFe electrical steels have ...
This paper proposes an advanced approach to construct static hysteresis loop of Grain-Oriented (GO) ...
The paper presents an algorithm for calculating the energy loss due to macroscopic eddy currents con...
Two alloys of nonoriented electrical steel, with 2.45 and 3.3 %Si, respectively, had their magnetic ...
For loss prediction of a transformer it is required to model the loss of its core, constructed out o...
Power transformer design requires to model the loss and hysteresis behavior of the laminated steel c...
Square and two-level pulse width modulation (PWM) magnetic induction waveforms are investigated and ...