Journal
IEEE TRANSACTIONS ON MAGNETICS
Volume 45, Issue 12, Pages 5281-5288Publisher
IEEE-INST ELECTRICAL ELECTRONICS ENGINEERS INC
DOI: 10.1109/TMAG.2009.2026044
Keywords
Anisotropy field; coercivity; crystal grain orientation; grain size; magnetization reversal; Sr-La-Co ferrite magnet
Funding
- Tamakawa Co., Ltd.
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We varied the composition and sintering temperature of Sr-La-Co ferrite magnets to analyze the effects of various important factors on coercivity (H-cJ). We examined the effects of crystal grain size and distribution, the mechanism of magnetization reversal, the degree of crystal grain orientation (OD), and the anisotropy field (H-A) on H-cJ. We proposed an equation based on the experimental results that expresses the measured H-cJ and considers these effects as H-cJ = C-t(0.4/R-h) OD(H-A - H-d - H-in), where C-t, R-h, H-a, and H-in are the crystal grain size effects on H-cJ of sintered magnet, rotational hysteresis integral corresponding to the mechanism of magnetization reversal, demagnetizing field of shape anisotropy, and interaction field between crystal grains, respectively. We found that apart from the volume ratio for single-domain crystal grains and H-A, the mechanism of magnetization reversal had significant effects on H-cJ for Sr-La-Co sintered ferrite magnets.
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