磁性材料及器件
磁性材料及器件
자성재료급기건
JOURNAL OF MAGNETIC MATERIALS AND DEVICES
2015年
4期
47-49,66
,共4页
NiCuZn铁氧体%水热法%氧化物法%显微结构%饱和磁感应强度
NiCuZn鐵氧體%水熱法%氧化物法%顯微結構%飽和磁感應彊度
NiCuZn철양체%수열법%양화물법%현미결구%포화자감응강도
NiCuZn ferrite%hydrothermal synthesis methods%oxide method%microstructure%saturation magnetic flux density
分别采用水热法与氧化物法制备Ni0.5Cu0.1Zn0.4Fe2O4铁氧体材料。基于低温共烧的要求,研究两种工艺铁氧体粉料电磁性能及显微结构的差异。结果表明,以硝酸盐为原材料的水热法可制备出良好烧结活性的NiCuZn铁氧体粉体,在添加一定量的Bi2O3及MoO3时,水热合成粉料的μi的温度稳定性较好,饱和磁通密度Bs较高,晶粒尺寸均匀、结构致密性好。
分彆採用水熱法與氧化物法製備Ni0.5Cu0.1Zn0.4Fe2O4鐵氧體材料。基于低溫共燒的要求,研究兩種工藝鐵氧體粉料電磁性能及顯微結構的差異。結果錶明,以硝痠鹽為原材料的水熱法可製備齣良好燒結活性的NiCuZn鐵氧體粉體,在添加一定量的Bi2O3及MoO3時,水熱閤成粉料的μi的溫度穩定性較好,飽和磁通密度Bs較高,晶粒呎吋均勻、結構緻密性好。
분별채용수열법여양화물법제비Ni0.5Cu0.1Zn0.4Fe2O4철양체재료。기우저온공소적요구,연구량충공예철양체분료전자성능급현미결구적차이。결과표명,이초산염위원재료적수열법가제비출량호소결활성적NiCuZn철양체분체,재첨가일정량적Bi2O3급MoO3시,수열합성분료적μi적온도은정성교호,포화자통밀도Bs교고,정립척촌균균、결구치밀성호。
Ni0.5Cu0.1Zn0.4Fe2O4 ferrites were prepared by both hydrothermal synthesis and oxide methods. Based on requirement for low temperature co-firing, we investigated the difference in magnetic properties and microstructure of ferrites between the two methods. The result shows that NiCuZn ferrite could be synthesized by hydrothermal synthesis methods with good sintering activity. As doping a certain amount of Bi2O3 and MoO3, hydrothermal synthesis ferrite shows stable temperature characteristics on initial permeability(μi), higher saturation magnetic flux density(Bs), for its uniform grain size and good densification.