合金元素对HDDR工艺Nd-Fe-B合金粉显微组织和磁各向异性的影响  被引量:1

Effects of Alloy Elements on Microstructure and Magnetic Anisotropy of NdFeB Alloy Powders Produced by HDDR Process

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作  者:高建荣[1] 宋晓平[1] 王笑天[1] 

机构地区:[1]西安交通大学材料学院

出  处:《中国稀土学报》1997年第4期313-317,共5页Journal of the Chinese Society of Rare Earths

基  金:西安交通大学校科学基金

摘  要:研究了Co和Zr对NdFeB合金HDDR粉显微组织和磁各向异性的影响。磁测量结果表明,Nd13Fe80.4Zr0.1B6.5基本上是磁各向同性的,而Nd15Fe66.9Co11Zr0.1B7合金粉末则具有较强的磁各向异性,显微组织观察发现,退火后NdFeB合金中存在一些富Zr的新相,并且这些新相在HDDR处理过程中并不发生变化,而Co在一定程度上抑制了这些新相的出现,不仅减小了该相的体积份数而且降低了其中的Zr含量。分析表明,对NdFeB合金化学成分进行优化以保证硬磁相内溶有一定量的合金元素(例如Zr)是获得各向异性HDDR粉的关键所在。?Effects of Co and Zr additions on microstructure and magnetic anisotropy of NdFeB alloy powders produced by HDDR process were investigated. Magnetic measurements showed that the HDDRtreated powder of Nd13Fe80.4Zr0.1B6.5 alloy is nearly magnetically isotropic whereas that of Nd15Fe66.9Co11Zr0.1B7 alloy is remarkably anisotropic. Microstructural obserbvations found that a new Zrrich phase is formed in the homogenized NdFeZrB alloy and remains unchanged during the HDDR process. However, concurrent additions of Co and Zr depress the formation of the new Zrrich phase so that both its volume fraction and Zr content are reduced. These results suggest that a sufficient solubility of alloying elements such as Zr into the hard magnetic phase via the optimization of chemical composition of NdFeB alloy is the key point to the production of anisotropic NdFeB alloy powders by HDDR process.

关 键 词:HDDR 显微组织 磁各向异性 钕铁硼磁体 永磁体 

分 类 号:TM273[一般工业技术—材料科学与工程]

 

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