Microstructure evolution and magnetic properties of the Nd9Fe81–xTi4C2Nb4Bx(x=11, 13, 15) bulk magnets prepared by copper mold suction casting
来源期刊:JOURNAL OF RARE EARTHS2015年第10期
论文作者:詹玉勇 潘晶 姜晓丽 刘新才 董友仁 肖晓燕
文章页码:1081 - 1086
摘 要:The bulk nanocomposite magnets of Nd9Fe81–xTi4C2Nb4Bx(x=11, 13, 15) in sheet form with the thickness of 0.7 mm were prepared by copper mold suction casting and subsequently annealing. The microstructure evolution and magnetic properties of bulk magnets were studied. It was shown that the as-cast microstructure of bulk alloys were composed of Nd2Fe14B, α-Fe, Fe3B crystalline phases and an amorphous matrix, and that the glass formability of alloy was improved with increasing the B content. The DSC analysis showed that the as-cast bulk alloys had the crystallization behavior of a two-step process. After annealing at the temperatures which was 40–63 K higher than their onset temperatures of the second exothermic peak, Nd9Fe81–xTi4C2Nb4Bx(x=11, 13, 15) bulk alloys obtained a finely mixed structure which were composed of Nd2Fe14 B, α-Fe, Fe3 B,(Nb,Ti)C crystalline phases and a residual amorphous phase, whose magnetic properties were significantly enhanced. For the bulk magnets of Nd9Fe81–xTi4C2Nb4Bx(x=11, 13, 15), the optimal magnetic properties of B r=0.63 T, iHc=155.1 k A/m,(BH)max=18.73 k J/m3 could be achieved when x=13 after annealing at 983 K for 10 min.
詹玉勇,潘晶,姜晓丽,刘新才,董友仁,肖晓燕
Ningbo State key Laboratory Base of New Functional Materials and Preparation Science, Faculty of Materials Science & Chemical Engineering, Ningbo University
摘 要:The bulk nanocomposite magnets of Nd9Fe81–xTi4C2Nb4Bx(x=11, 13, 15) in sheet form with the thickness of 0.7 mm were prepared by copper mold suction casting and subsequently annealing. The microstructure evolution and magnetic properties of bulk magnets were studied. It was shown that the as-cast microstructure of bulk alloys were composed of Nd2Fe14B, α-Fe, Fe3B crystalline phases and an amorphous matrix, and that the glass formability of alloy was improved with increasing the B content. The DSC analysis showed that the as-cast bulk alloys had the crystallization behavior of a two-step process. After annealing at the temperatures which was 40–63 K higher than their onset temperatures of the second exothermic peak, Nd9Fe81–xTi4C2Nb4Bx(x=11, 13, 15) bulk alloys obtained a finely mixed structure which were composed of Nd2Fe14 B, α-Fe, Fe3 B,(Nb,Ti)C crystalline phases and a residual amorphous phase, whose magnetic properties were significantly enhanced. For the bulk magnets of Nd9Fe81–xTi4C2Nb4Bx(x=11, 13, 15), the optimal magnetic properties of B r=0.63 T, iHc=155.1 k A/m,(BH)max=18.73 k J/m3 could be achieved when x=13 after annealing at 983 K for 10 min.
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