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
39-41,53
,共4页
Co2Z锶铁氧体%烧结%磁介电性能%电阻率
Co2Z鍶鐵氧體%燒結%磁介電性能%電阻率
Co2Z송철양체%소결%자개전성능%전조솔
Co2Z hexagonal ferrite%sintering%magnetodielectric property%resistivity
采用固相反应法制备Sr3Co2Fe24O41六角锶铁氧体粉末,探究了预烧和烧结温度对材料电阻率的影响。随预烧温度上升,材料的主晶相由M相转变为Z相,在预烧温度1200℃获得了纯净的Z相;烧结温度为1150℃时,材料晶粒为均匀的片状,具有较大电阻率。烧结通O2条件的实验表明,进气量变化时(20~40L/h),材料的电阻率变化不大,改变O2分压(0.2~0.4MPa)时,在0.3MPa时获得了最大的电阻率,其值为1.12×109?·cm。最后,在室温下测试了材料对施加弱磁场的磁电效应(0~500mT),结果表明Z型铁氧体与M型六角铁氧体相比在室温弱场下具有明显的磁电效应,M型的介电常数则几乎无变化,而Z型铁氧体在0~100mT下介电常数下降,变化率为1.6%。改变测试频率,在200kHz测试时获得了较大的磁电效应。
採用固相反應法製備Sr3Co2Fe24O41六角鍶鐵氧體粉末,探究瞭預燒和燒結溫度對材料電阻率的影響。隨預燒溫度上升,材料的主晶相由M相轉變為Z相,在預燒溫度1200℃穫得瞭純淨的Z相;燒結溫度為1150℃時,材料晶粒為均勻的片狀,具有較大電阻率。燒結通O2條件的實驗錶明,進氣量變化時(20~40L/h),材料的電阻率變化不大,改變O2分壓(0.2~0.4MPa)時,在0.3MPa時穫得瞭最大的電阻率,其值為1.12×109?·cm。最後,在室溫下測試瞭材料對施加弱磁場的磁電效應(0~500mT),結果錶明Z型鐵氧體與M型六角鐵氧體相比在室溫弱場下具有明顯的磁電效應,M型的介電常數則幾乎無變化,而Z型鐵氧體在0~100mT下介電常數下降,變化率為1.6%。改變測試頻率,在200kHz測試時穫得瞭較大的磁電效應。
채용고상반응법제비Sr3Co2Fe24O41륙각송철양체분말,탐구료예소화소결온도대재료전조솔적영향。수예소온도상승,재료적주정상유M상전변위Z상,재예소온도1200℃획득료순정적Z상;소결온도위1150℃시,재료정립위균균적편상,구유교대전조솔。소결통O2조건적실험표명,진기량변화시(20~40L/h),재료적전조솔변화불대,개변O2분압(0.2~0.4MPa)시,재0.3MPa시획득료최대적전조솔,기치위1.12×109?·cm。최후,재실온하측시료재료대시가약자장적자전효응(0~500mT),결과표명Z형철양체여M형륙각철양체상비재실온약장하구유명현적자전효응,M형적개전상수칙궤호무변화,이Z형철양체재0~100mT하개전상수하강,변화솔위1.6%。개변측시빈솔,재200kHz측시시획득료교대적자전효응。
Sr3Co2Fe24O41 hexagonal ferrites were prepared by solid-state reaction method, and influence of presintering and sintering temperatures on their properties was investigated. As the presintering temperature rises, the main phase of the material changes from M-type to Z-type and at 1200℃ the pure Z-phase is obtained. The sintering temperature 1150℃ was determined, at which the uniform planar grains with high resistivity were compounded. Then the sintering condition of O2 was analyzed, and the results show that the resistivity is mainly depended on the partial pressure of the O2(0.2 to 0.4MPa), but not the O2 flowing amount (20 to 40L/h), and at 0.3MPa the resistivity can reach 1.12G?·cm. At last the magnetic dielectric property was tested under the weak magnetic field (0 to 500mT) at room temperature. The results show that the magnetic dielectric effect of Z type is more obvious than that of M type hexagonal ferrites. No changes of the permitivity was founded on the M type material and the permitivity of the Z type decreases in the magnetic field of 0 to 100mT with the change rate of the permitivity about 1.6%, at the frequency 200kHz the change rate of the permitivity is a little more than that at the other frequency.