研究了用速凝铸造工艺制造高性能烧结Nd Fe B磁体·同传统的铸锭工艺相比,速凝铸造工艺细化柱状晶,阻止α Fe枝晶相的产生,改善了铸态合金的微观结构·柱状晶宽度基本在5~25μm之间,尺寸较均匀;在制粉过程中容易得到粒度分布...研究了用速凝铸造工艺制造高性能烧结Nd Fe B磁体·同传统的铸锭工艺相比,速凝铸造工艺细化柱状晶,阻止α Fe枝晶相的产生,改善了铸态合金的微观结构·柱状晶宽度基本在5~25μm之间,尺寸较均匀;在制粉过程中容易得到粒度分布较好的磁粉;富Nd相分布较好,所以在较低烧结温度下可得到较高密度的磁体;由于具有细小均匀的微结构,利用速凝铸带工艺烧结出的磁体具有更高的Br,Hci和(BH)max·展开更多
The phase equilibria and compositions in Mg-rich comer at 300℃ were determined in the Mg-Zn-A1 ternary system through the equilibrated alloy method by using X-ray diffraction (XRD) and scanning electron microscopy ...The phase equilibria and compositions in Mg-rich comer at 300℃ were determined in the Mg-Zn-A1 ternary system through the equilibrated alloy method by using X-ray diffraction (XRD) and scanning electron microscopy (SEM) assisted with energy dispersive spectroscopy of X-ray (EDS). The results show that there exist three three-phase regions consisted of a-Mg+Mg17A112(7)+A15Mg11Zn4(φ), a-Mg+Mga2(Al, Zn)49(r)+A15MgllZn4(φ) and a-Mg+MgZn+Mg32(A1, Zn)49(r), respectively. The intermetallic compounds in equilibrium with a-Mg phase all have large composition ranges, not appear to be linear. At the same time, both zinc and aluminum are soluble in the a-Mg solid solution, with which the compounds are in equilibrium.展开更多
研究了微量合金元素 Nb 的添加对 Fe3B/Nd2Fe14B型纳米复合永磁体微观结构与磁性能的影响规律。结果表明,添加Nb元素可以稳定非晶相,阻碍Fe3B粒子的结晶动力学。Nd5.5Fe70.0Co5Cu0.5Nb0.5B18.5非晶合金在640℃退火处理 30min可获得最佳...研究了微量合金元素 Nb 的添加对 Fe3B/Nd2Fe14B型纳米复合永磁体微观结构与磁性能的影响规律。结果表明,添加Nb元素可以稳定非晶相,阻碍Fe3B粒子的结晶动力学。Nd5.5Fe70.0Co5Cu0.5Nb0.5B18.5非晶合金在640℃退火处理 30min可获得最佳磁性能:Br=1.05T,jHc=367kA/m,(BH)max=80.2kJ/m3。Nb与Cu的复合添加对Fe3B晶粒的细化效果更显著;Nb元素的添加可以提高合金的磁性能,但添加量必须适中。展开更多
文摘研究了用速凝铸造工艺制造高性能烧结Nd Fe B磁体·同传统的铸锭工艺相比,速凝铸造工艺细化柱状晶,阻止α Fe枝晶相的产生,改善了铸态合金的微观结构·柱状晶宽度基本在5~25μm之间,尺寸较均匀;在制粉过程中容易得到粒度分布较好的磁粉;富Nd相分布较好,所以在较低烧结温度下可得到较高密度的磁体;由于具有细小均匀的微结构,利用速凝铸带工艺烧结出的磁体具有更高的Br,Hci和(BH)max·
基金Projects (50901017,50731002) supported by the National Natural Science Foundation of ChinaProject (20090042120008) supported by Doctoral Program Foundation of Institutions of Higher Education of ChinaProjects (N100702001,N090502002) supported by the Fundamental Research Funds of the Central Universities,China
文摘The phase equilibria and compositions in Mg-rich comer at 300℃ were determined in the Mg-Zn-A1 ternary system through the equilibrated alloy method by using X-ray diffraction (XRD) and scanning electron microscopy (SEM) assisted with energy dispersive spectroscopy of X-ray (EDS). The results show that there exist three three-phase regions consisted of a-Mg+Mg17A112(7)+A15Mg11Zn4(φ), a-Mg+Mga2(Al, Zn)49(r)+A15MgllZn4(φ) and a-Mg+MgZn+Mg32(A1, Zn)49(r), respectively. The intermetallic compounds in equilibrium with a-Mg phase all have large composition ranges, not appear to be linear. At the same time, both zinc and aluminum are soluble in the a-Mg solid solution, with which the compounds are in equilibrium.
文摘研究了微量合金元素 Nb 的添加对 Fe3B/Nd2Fe14B型纳米复合永磁体微观结构与磁性能的影响规律。结果表明,添加Nb元素可以稳定非晶相,阻碍Fe3B粒子的结晶动力学。Nd5.5Fe70.0Co5Cu0.5Nb0.5B18.5非晶合金在640℃退火处理 30min可获得最佳磁性能:Br=1.05T,jHc=367kA/m,(BH)max=80.2kJ/m3。Nb与Cu的复合添加对Fe3B晶粒的细化效果更显著;Nb元素的添加可以提高合金的磁性能,但添加量必须适中。