Effect of texture and grain size on the magnetic flux density and core loss of cold-rolled high silicon steel sheets

Effect of texture and grain size on the magnetic flux density and core loss of cold-rolled high silicon steel sheets

The effects of texture and grain size on the magnetic flux density and core loss (50–20kHz) of 0.23mm-thick cold-rolled high silicon steel sheets are investigated by means of electron back-scattered diffraction (EBSD), loss separation, and anisotropy parameter (ε) calculation. A model of the hystere...

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Bibliographic Details
Published in:Journal of magnetism and magnetic materials Vol. 393; pp. 537 - 543
Main Authors: Qin, Jing, Yang, Ping, Mao, Weimin, Ye, Feng
Format: Journal Article
Language:English
Published: Elsevier B.V 01-11-2015
Subjects:
Cold rolling
Core loss
Density
Grain size
High silicon steel
Magnetic flux
Magnetic flux density
Silicon steels
Surface layer
Texture
Grain size
Magnetic flux density
High silicon steel
Core loss
Texture
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Summary:The effects of texture and grain size on the magnetic flux density and core loss (50–20kHz) of 0.23mm-thick cold-rolled high silicon steel sheets are investigated by means of electron back-scattered diffraction (EBSD), loss separation, and anisotropy parameter (ε) calculation. A model of the hysteresis loss coefficient kh considering average grain size and ε is established. The magnetic flux density at 800A/m (B8) is closely related to the volume fraction of η-fiber-oriented grains, while the magnetic flux density at 5000A/m (B50) is closely related to the volume fractions of γ- and λ-fiber-oriented grains in high silicon steel. The hysteresis loss of high silicon steel can be greatly reduced by increasing the grain size and optimizing the texture of the sheets. Although increases in frequencies decrease the effect of texture on core loss, the effect cannot be ignored. As annealing temperature and time increase, the relative difference in core loss between the rolling direction (RD) and the transverse direction (TD) is maintained at higher frequencies because of increases in grain size, decreases in γ texture, and maintenance of a strong η texture. Texture and grain size jointly affect the high-frequency core loss of high silicon steel. •A model of hysteresis loss coefficient considering anisotropy parameter is obtained.•Effect of texture on high-frequency core loss of high-silicon steel cannot be ignored.•Texture and grain size jointly affect high-frequency core loss of high-silicon steel.
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ISSN:0304-8853
DOI:10.1016/j.jmmm.2015.06.032