摘要
研究了由Nd_2(Fe,Co)_(14)B和Nd_2(Fe,Co)_(17)双相组成的HDDR高矫顽力磁粉的微观结构及磁性。发现在单相Nd_2(Fe,Co)_(14)B化合物的基础上降低B含量,导致Nd_2(Fe,Co)_(17)相出现,且随B含量降低该相逐渐增多.适量的Nd_2(Fe,Co)_(17)相的存在对用性有一定有益的作用,过量则导致磁性严重恶化,这可能与该相的尺寸和存在形式密切相关.
The microstructure and magnetic properties of coercive powder prepared by hydrogenation disproportionation desorption recombination method (HDDR) and composed of dual phase Nd2(Fe, Co)14B and Nd2(Fe, Co)17 alloy have been investigated. The decrease in B content in monophase Nd2(Fe, Co)14B alloy induced the formation of Nd2(Fe,Co)17 phase. The remanence Br, of dual alloy Nd12.5 Fe81.5-xCo6Bx with x= 5.2 is higher than that of monophase Nd12.5Fe81.5-xCo6Bx with x=5.88. This may be due to an exchange-coupling interaction between Nd2(Fe, Co)14B and Nd2(Fe, Co)17 phase.
出处
《金属学报》
SCIE
EI
CAS
CSCD
北大核心
1996年第8期872-876,共5页
Acta Metallurgica Sinica
关键词
磁性能
永磁材料粉末
硼
显微结构
magnetic proporty, hydrogenation disproportionation desorption recombination, B content, microstructure, Nd-(Fe, Co)-B alloy
