Angular dependence of coercivity of grains in nanocrystalline permanent magnets

doi:10.1088/1674-1056/17/3/063

Abstract

Abstract In this paper magnetization remanence curves were studied for nanocrystalline Pr₈Fe₈₇B₅, Pr₁₂Fe₈₂B₆ and Pr₁₅Fe₇₇B₈. Initially the sample was at remanence following saturation along $z$-axis. After rotating the magnet by $5n$ degrees ($n$=0, 1, ..., 18) a field H was applied along $z$-axis and then decreased to zero, and the remanence $J_r^n$ was measured as a function of $H$. The curves were compared with those calculated based on the nucleation of reverse domain model and domain wall pinning model. The latter model succeeds in simulation much better than the former, and it is concluded that the magnetization reversal is dominated by domain wall pinning for all the samples. The nucleation mechanism contribution, while remains small, increases with the increase of Pr content.

Keywords: nanocrystalline permanent magnets magnetization curves computer simulation

Received: 03 April 2007
Revised: 18 July 2007
Accepted manuscript online:

PACS:	75.60.Ej	(Magnetization curves, hysteresis, Barkhausen and related effects)
	75.50.Tt	(Fine-particle systems; nanocrystalline materials)
	75.50.Ww	(Permanent magnets)
	75.60.Ch	(Domain walls and domain structure)
	75.75.+a

Fund: Project supported by Department of Science and Technology of Jilin Province, China.

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Gong Yi-Min(龚依民), Lan Zhi-Huan(蓝志环), Yan Yu(闫羽), Du Xiao-Bo(杜晓波), Wang Wen-Quan(王文全), Wang Xue-Feng(王学凤), Su Feng(苏峰), Lu Lei(卢磊), Zhang Zhi-Sheng(张之胜), Jin Han-Min(金汉民), and Wen Ge-Hui(温戈辉) Angular dependence of coercivity of grains in nanocrystalline permanent magnets 2008 Chin. Phys. B 17 1130

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Angular dependence of coercivity of grains in nanocrystalline permanent magnets

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