Short range order transformation and magnetostriction of Fe83Ga17 ribbons

doi:10.1088/1674-1056/20/5/057504

Abstract The relationship between magnetostriction and structure of melt-spun Fe₈₃Ga₁₇ ribbons are investigated by XRD and M?ssbauer spectrum technique (MS). As the heat-treatment temperature increases from 650oC to 800℃, the magnetostriction coefficient of Fe₈₃Ga₁₇ ribbon first increases and then decreases. The largest magnetostriction coefficient (-578.4 ppm) is achieved in those specimens quenched at 750℃. According to the XRD and M?ssbauer spectrum analysis, a small quantity of DO₃ phase is precipitated in Fe₈₃Ga₁₇ ribbons when quenched from 650℃ and the DO₃ phase is gradually transformed into B2-like phase if quenched at higher temperature. However, both DO₃ and B2-like phases disappear when the temperature increases up to 800℃. From this point of view, B2-like phase might be beneficial to the enhancement of magnetostrictive properties of melt-spun ribbons.

Keywords: Fe–Ga alloy magnetostriction M?ssbauer spectroscopy short range order

Received: 29 November 2010
Revised: 23 December 2010
Accepted manuscript online:

PACS:	75.80.+q	(Magnetomechanical effects, magnetostriction)
	33.45.+x	(M?ssbauer spectra)
	64.60.Cn	(Order-disorder transformations)

Fund: Project supported by the National Basic Research Program of China (Grant No. 2010CB934602).

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Zhu Jie (朱洁), Peng Fu-Ling (彭福玲), Fang Mei-Ling (方美玲), Li Ji-Heng (李纪恒), Gao Xue-Xu (高学绪), Yu Rong-Hai (于荣海) Short range order transformation and magnetostriction of Fe₈₃Ga₁₇ ribbons 2011 Chin. Phys. B 20 057504

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Short range order transformation and magnetostriction of Fe83Ga17 ribbons

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Short range order transformation and magnetostriction of Fe₈₃Ga₁₇ ribbons