L. Withanawasam ∗, Y.H. Zheng, G.C. Hadjipanayis, R.F. Krause
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引用次数: 6
Abstract
We have studied the crystallization, crystal structure, microstructure, and magnetic properties of melt-spun ribbons of R6(Fe-Nb)88B6 with RNd, Pr, Dy, Tb and Nd3.5(Fe-Nb)93B3.5 consisting of a mixture of exchange-coupled magnetically hard R2Fe14B and soft α-Fe phases. The as-spun ribbons of R-rich composition crystallize in two steps; for RNd, Pr, and Dy at first the Y3Fe62B14-type + α-Fe phases and subsequently they transform to 2:14:1 and α-Fe upon heating above 700 °C. The intermediate phase in the case of Tb6(Fe-Nb)88B6 is of the TbCu7-type. Very high remanences up to 145 emu/g with reduced remanences ranging from 0.6 to 0.7 were observed. The coercivity of the samples was found to vary with the R element and the hard phase content. The highest room temperature coercivity of 4.5 kOe was obtained in a Nd4Tb2(Fe-Nb)88B6 sample. The observed reversible demagnetization curves are characteristic of exchange-spring magnets.
A two-phase microstructure was also obtained in Sm-Fe-Ga-C ribbons consisting of exchange-coupled 2:17 and α-Fe phases after annealing in the temperature range of 700–800 °C. The highest coercive force (12.8 kOe) was obtained in samples annealed at 800 °C. Annealing at 700 °C led to finer grains with lower coercivities (5kOe) but higher remanences.
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