Improvement of size and magnetic properties of Nd_(9.5)Fe_(72.5)Ti_3B_(15) bulk magnets by Zr or Nb substitution for Ti

H. W. Chang; Y. T. Cheng; C. W. Chang; C. C. Hsieh; Z. H. Guo; W. C. Chang; A. C. Sun

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Improvement of size and magnetic properties of Nd_(9.5)Fe_(72.5)Ti_3B_(15) bulk magnets by Zr or Nb substitution for Ti

机译：用Zr或Nb代替Ti改善Nd_（9.5）Fe_（72.5）Ti_3B_（15）大块磁体的尺寸和磁性能

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Magnetic properties and microstructure of directly quenched Nd_(9.5)Fe_(72.5)Ti_(3-x)M_xB_(15)(M=Nb and Zr; x=0-3) bulk magnets in rod form with a diameter of 0.9 mm have been studied. Proper Nb or Zr substitution for Ti has been found to well modify phase constitution and to refine the grain size from 200 to 50-100 nm effectively. Accordingly, the magnetic properties of the rods are enhanced remarkably from _iH_c=6.2 kOe and (BH)_(max)=5.6 MG Oe for Nd_(9.5)Fe_(72.5)Ti_3B_(15) to _iH_c = 6.7-15.4 kOe and (BH)_(maz)=6.0-8.2 MG Oe for Nd_(9.5)Fe_(72.5)Ti_(3-x)M_xB_(15). The optimum magnetic properties of B_r=6.6 kG, _iH_c=9.6 kOe, and (BH)_(max) = 8.2 MG Oe can be achieved for Nd_(9.5)Fe_(72.5)Ti_(2.5)Zr_(0.5)B_(15) alloy, while the highest coercivity of_iH_c=15.4 kOe [B_r=5.9 kG and (BH)_(max)=7.0 MG Oe] is obtained for Nd_(9.5)Fe_(72.5)Nb_3B_(15). Their high permanent magnetic property arises mainly from the existence of a large volume fraction of 2:14:1 phase, finer grain size, and the existence of grain boundary phase.

机译：直径为0.9 mm的棒状Nd_（9.5）Fe_（72.5）Ti_（3-x）M_xB_（15）（M = Nb和Zr; x = 0-3）大块磁体的直接淬火的磁性能和微观结构具有经过研究。已经发现用适当的Nb或Zr替代Ti可以很好地改变相的组成，并有效地将晶粒尺寸从200 nm缩小到50-100 nm。因此，对于Nd_（9.5）Fe_（72.5）Ti_3B_（15），棒的磁性能从_iH_c = 6.2 kOe和（BH）_（max）= 5.6 MG Oe显着提高到_iH_c = 6.7-15.4 kOe，并且（ Nd_（9.5）Fe_（72.5）Ti_（3-x）M_xB_（15）的BH）_（maz）= 6.0-8.2 MG Oe。对于Nd_（9.5）Fe_（72.5）Ti_（2.5）Zr_（0.5）B_（15），可以实现B_r = 6.6 kG，_iH_c = 9.6 kOe和（BH）_（max）= 8.2 MG Oe的最佳磁性能。）合金，而对于Nd_（9.5）Fe_（72.5）Nb_3B_（15）可获得最高矫顽力_iH_c = 15.4 kOe [B_r = 5.9 kG和（BH）_（max）= 7.0 MG Oe]。它们的高永久磁性能主要是由于存在2：14：1的大体积分数，更细的晶粒尺寸和晶界相的存在。

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来源
《Journal of Applied Physics》 |2009年第2期|318-320|共3页
作者
H. W. Chang; Y. T. Cheng; C. W. Chang; C. C. Hsieh; Z. H. Guo; W. C. Chang; A. C. Sun;
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作者单位

Department of Physics, National Chung Cheng University, Chia-Yi 621, Taiwan, Republic of China Department of Physics, Tunghai University, Taichung 407, Taiwan, Republic of China;

Department of Physics, National Chung Cheng University, Chia-Yi 621, Taiwan, Republic of China;

Department of Physics, National Chung Cheng University, Chia-Yi 621, Taiwan, Republic of China;

Department of Physics, National Chung Cheng University, Chia-Yi 621, Taiwan, Republic of China;

Department of Physics, National Chung Cheng University, Chia-Yi 621, Taiwan, Republic of China;

Department of Physics, National Chung Cheng University, Chia-Yi 621, Taiwan, Republic of China;

Department of Physics, National Taiwan University, Taipei 106, Taiwan, Republic of China;

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Improvement of size and magnetic properties of Nd_(9.5)Fe_(72.5)Ti_3B_(15) bulk magnets by Zr or Nb substitution for Ti

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