Title :
Modeling of Magnetic Properties of GO Electrical Steel Based on Epstein Combination and Loss Data Weighted Processing
Author :
Cheng, Zhongyuan ; Takahashi, Naoyuki ; Forghani, B. ; Moses, Anthony ; Anderson, Philip ; Fan, Y. ; Liu, Tiegen ; Wang, Xiongfei ; Zhao, Zhen ; Liu, L.
Author_Institution :
R & D Center, Baoding Tianwei Group Co., Ltd., Baoding, China
Abstract :
The extended modeling of the magnetic properties of grain oriented electrical steel is presented in this paper which is based on a set of standard and scaled-down Epstein frames and a proposed two-level weighted processing of Epstein data, including the mean magnetic path length, specific magnetization loss and exciting power. The effects of excitation frequency, strip angle, and ambient temperature on the results obtained from the Epstein frames are investigated. It is shown that using the proposed Epstein combination and the two-level weighted processing method is an efficient way of building a model for determining magnetic losses more realistically, hence, improving the value of Epstein strip measurement data.
Keywords :
eddy current losses; magnetic cores; magnetic leakage; steel; Epstein combination; Epstein loss data weighted processing; Epstein strip measurement data; GO electrical steel; ambient temperature; excitation frequency effects; exciting power; extended modeling; grain oriented electrical steel; magnetic losses; magnetic properties; mean magnetic path length; scaled-down Epstein frames; specific magnetization loss; standard Epstein frames; strip angle; two-level weighted processing method; Loss measurement; Magnetic flux; Magnetic losses; Magnetization; Standards; Strips; Temperature measurement; Epstein test; exciting power; grain oriented electrical steel; mean magnetic path length; specific magnetization loss;
Journal_Title :
Magnetics, IEEE Transactions on
DOI :
10.1109/TMAG.2013.2279840
