功能材料
功能材料
공능재료
JOURNAL OF FUNCTIONAL MATERIALS
2014年
21期
21031-21034
,共4页
于丕风%杨仕清%梁桃华%余信云%张伟鹏
于丕風%楊仕清%樑桃華%餘信雲%張偉鵬
우비풍%양사청%량도화%여신운%장위붕
MnZn 功率铁氧体%饱和磁感应强度%磁性能%NiO-CoO 掺杂
MnZn 功率鐵氧體%飽和磁感應彊度%磁性能%NiO-CoO 摻雜
MnZn 공솔철양체%포화자감응강도%자성능%NiO-CoO 참잡
MnZn power ferrite%saturation magnetic induction%magnetic property%NiO-CoO dopant
采用传统氧化物工艺制备了 NiO-CoO 掺杂的 MnZn 软磁铁氧体材料.研究了 NiO、CoO 复合掺杂对高 B s 低损耗的 MnZn 铁氧体微结构及电磁性能的影响.结果表明,掺杂0.1%(质量分数)CoO 和1.28%(质量分数)NiO 的 MnZn 铁氧体晶粒生长均匀,具有较高的饱和磁感应强度,最低损耗点位于100℃.随着 NiO 掺杂量的增加,最低功耗点向高温方向移动.CoO 掺杂导致材料密度增大,功耗降低.在钟罩炉中按特定烧结曲线烧结 MnZn 铁氧体具有较好的综合性能:μi =2198,P cv =319 kW/m3,B s =540 mT (T =25℃),B s =451 mT (T =100℃).
採用傳統氧化物工藝製備瞭 NiO-CoO 摻雜的 MnZn 軟磁鐵氧體材料.研究瞭 NiO、CoO 複閤摻雜對高 B s 低損耗的 MnZn 鐵氧體微結構及電磁性能的影響.結果錶明,摻雜0.1%(質量分數)CoO 和1.28%(質量分數)NiO 的 MnZn 鐵氧體晶粒生長均勻,具有較高的飽和磁感應彊度,最低損耗點位于100℃.隨著 NiO 摻雜量的增加,最低功耗點嚮高溫方嚮移動.CoO 摻雜導緻材料密度增大,功耗降低.在鐘罩爐中按特定燒結麯線燒結 MnZn 鐵氧體具有較好的綜閤性能:μi =2198,P cv =319 kW/m3,B s =540 mT (T =25℃),B s =451 mT (T =100℃).
채용전통양화물공예제비료 NiO-CoO 참잡적 MnZn 연자철양체재료.연구료 NiO、CoO 복합참잡대고 B s 저손모적 MnZn 철양체미결구급전자성능적영향.결과표명,참잡0.1%(질량분수)CoO 화1.28%(질량분수)NiO 적 MnZn 철양체정립생장균균,구유교고적포화자감응강도,최저손모점위우100℃.수착 NiO 참잡량적증가,최저공모점향고온방향이동.CoO 참잡도치재료밀도증대,공모강저.재종조로중안특정소결곡선소결 MnZn 철양체구유교호적종합성능:μi =2198,P cv =319 kW/m3,B s =540 mT (T =25℃),B s =451 mT (T =100℃).
MnZn soft ferrite materials with NiO-CoO dopant were prepared by conventional oxide technique.The influences of CoO and NiO addition on the microstructure and magnetic properties of low-loss and high B s MnZn ferrites were investigated.It was confirmed that the sample with CoO addition of 0.1wt% and NiO addi-tion of 1.28wt%,homogeneous grains are formed and has high saturation magnetic flux density.The low loss point was located at 100 ℃.Valley point of power loss shifts to higher temperature with increasing of NiO dop-ant.With increase of CoO addition,the power losses decrease and sintering density increases.The MnZn ferrite in a specific sintering curve has excellent comprehensive properties:μi =2 1 98,P cv =31 9 kW/m3 ,B s =45 1 mT (T =100 ℃).