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Effects of Ga addition on structural and magnetic properties of nanocomposite Nd-Fe-B-Ti-C thick ribbons

机译:镓的添加对纳米复合Nd-Fe-B-Ti-C厚带结构和磁性的影响

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摘要

Rapidly solidified Nd_9Fe_(73)B_(12.6)C_(14)Ti_(4-x)Ga_x (x = 0, 0.5, 1) thick ribbons were prepared by melt spinning technique at a surface speed (v_s) of 5 m/s. The influences of Gallium doping on the glass-forming ability (GFA), microstructure and magnetic properties of alloys were investigated. The coercivity of Nd-Fe-B-Ti-C nanocomposite alloy thick ribbons can be dramatically enhanced by 0.5 at. % Ga addition in a low cooling-rate regime, attributing to the weakened exchange coupling interaction and grain refinement. The results of XRD showed that the GFA of Nd-Fe-B-Ti-C alloy was enhanced by the Ga addition. Therefore, Gallium addition is effective to refine grain and improve the glass-forming ability, which provides the possibility to obtain the high performance of magnetic properties by using strip casting (SC) method.
机译:通过熔融纺丝技术以5 m / s的表面速度(v_s)制备快速凝固的Nd_9Fe_(73)B_(12.6)C_(14)Ti_(4-x)Ga_x(x = 0、0.5、1)厚带。研究了镓掺杂对合金的玻璃形成能力(GFA),组织和磁性能的影响。 Nd-Fe-B-Ti-C纳米复合合金厚带的矫顽力可以显着提高0.5 at。在低冷却速率条件下添加%Ga,这归因于交换耦合相互作用和晶粒细化的减弱。 XRD的结果表明,添加Ga可以提高Nd-Fe-B-Ti-C合金的GFA。因此,添加镓有效地细化晶粒并提高玻璃形成能力,这提供了通过使用带铸(SC)方法获得高性能的磁性能的可能性。

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  • 来源
    《Journal of Applied Physics》 |2012年第2期|p.07A730.1-07A730.3|共3页
  • 作者

    Q. Wu; T. Yu; S. Guo; X. C. Feng; M. X. Pan; P. Y. Zhang; B. S. Han; H. L Ge; A. R. Yan;

  • 作者单位

    Zhejiang Province Key Laboratory of Magnetic Materials and Application Technology, Ningbo Institute of Material Technology & Engineering, Chinese Academy of Sciences, Ningbo 315201, China,College of Materials Science and Engineering, China Jiliang University, Hangzhou 310018, China;

    Institute of Physics, Academia Sinica, Beijing 100080, China;

    Zhejiang Province Key Laboratory of Magnetic Materials and Application Technology, Ningbo Institute of Material Technology & Engineering, Chinese Academy of Sciences, Ningbo 315201, China;

    Zhejiang Province Key Laboratory of Magnetic Materials and Application Technology, Ningbo Institute of Material Technology & Engineering, Chinese Academy of Sciences, Ningbo 315201, China;

    College of Materials Science and Engineering, China Jiliang University, Hangzhou 310018, China;

    College of Materials Science and Engineering, China Jiliang University, Hangzhou 310018, China;

    Institute of Physics, Academia Sinica, Beijing 100080, China;

    College of Materials Science and Engineering, China Jiliang University, Hangzhou 310018, China;

    Zhejiang Province Key Laboratory of Magnetic Materials and Application Technology, Ningbo Institute of Material Technology & Engineering, Chinese Academy of Sciences, Ningbo 315201, China;

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