Title :
Modeling of Temperature Effects on Magnetic Property of Nonoriented Silicon Steel Lamination
Author :
Junquan Chen ; Dong Wang ; Siwei Cheng ; Yu Wang ; Yonghong Zhu ; Quan Liu
Author_Institution :
Nat. Key Lab. of Sci. & Technol. on Vessel Integrated Power Syst., Naval Univ. of Eng., Wuhan, China
Abstract :
This paper proposed a temperature-dependent iron loss model and corresponding dynamic hysteresis model, where temperature coefficient k is introduced to consider the thermal effect on eddy-current loss. The iron loss model is validated by massive experimental measurement of test samples, 1174 combinations of various temperatures, magnetic inductions, and frequencies for nonoriented silicon steel specimen. The relative error of the model is ~11% in a wide range of 50-400 Hz, 26 °C-200 °C, and 0-2 T. The proposed method can be applicable to other types of magnetic materials as long as whose resistivity rate exhibits approximately linear thermal dependence within a temperature range of 26 °C-200 °C.
Keywords :
eddy current losses; electromagnetic induction; magnetic hysteresis; silicon alloys; steel; dynamic hysteresis model; eddy-current loss; frequency 50 Hz to 400 Hz; linear thermal dependence; magnetic inductions; magnetic property; nonoriented silicon steel lamination; resistivity rate; temperature 26 degC to 200 degC; temperature coefficient; temperature effect modeling; temperature-dependent iron loss model; thermal effect; Eddy currents; Iron; Magnetic hysteresis; Steel; Temperature; Temperature dependence; Temperature measurement; High-speed motor; Non-oriented silicon steel; high speed motor; iron loss; nonoriented silicon steel; temperature dependent model; temperature-dependent model;
Journal_Title :
Magnetics, IEEE Transactions on
DOI :
10.1109/TMAG.2015.2432081
