摘要
以钢铁厂副产品铁鳞为主要原料,采用传统陶瓷合成方法,制备了永磁锶铁氧体粉体。研究了锶铁摩尔比(SrO∶nFe2O3)和焙烧温度对铁氧体粉体显微结构和磁性能的影响。结果发现,锶铁氧体(SrO·nFe2O3)中n值变小,晶胞a轴变短,c轴变长,晶胞体积变小;粉体的矫顽力从204kA/m增加到264kA/m,剩余磁化强度略有降低。焙烧温度增高使锶铁氧体晶粒变大,当温度达到1250℃时,晶粒尺寸增大到1.5μm,矫顽力Hcj则由271kA/m急剧降低到125kA/m,剩余磁化强度则由37.5 A·m2/kg增加到39.0 A·m2/kg。
Using by-product of Fe2O3in iron and steel industry as main raw materials, SrFe12O19ferrite powder has been prepared using traditional ceramic method. The influence of mol ratio n(Fe2O3:SrO) and calcining temperature on its microstructure and magnetic properties have been investigated. The result shows that with decrease of n value in Sr-ferrite, crystal parameter of a decreases and c axis increases. The crystal volume decreases correspondingly. At the same time, the crystal grain size of 1.0μm(n=5.6) could enhance the intrinsic coercivity(Hcj) from 204kA/m to 264kA/m while the remnant magnetization keeps slight decrease. When the calcining temperature increases to 1250℃, the grain size of crystal increases to 1.5μm and the corresponding Hcj decreases from 271kA/m to 125kA/m drastically. The remnant magnetization increases from 37.5emu/g to 39.0emu/g.
出处
《磁性材料及器件》
北大核心
2013年第6期55-58,共4页
Journal of Magnetic Materials and Devices
基金
国家自然科学基金资助项目(50904048)
关键词
锶铁氧体
锶铁摩尔比
焙烧温度
磁性能
Sr-ferrite
mol ratio of Fe2O3to SrO
calcinated temperature
magnetic properties
