稀有金属材料与工程
稀有金屬材料與工程
희유금속재료여공정
RARE METAL MATERIALS AND ENGINEERNG
2009年
z2期
130-133
,共4页
王克强%赫晓东%孙跃%姜久兴
王剋彊%赫曉東%孫躍%薑久興
왕극강%혁효동%손약%강구흥
SHS%NiFe_2O_4%烧结制度%磁性能
SHS%NiFe_2O_4%燒結製度%磁性能
SHS%NiFe_2O_4%소결제도%자성능
SHS%NiFe_2O_4%sintering conditions%magnetic properties
为了确定自蔓延高温合成(SHS)NiFe_2O_4的最佳烧结制度,通过SHS技术制备获得NiFe_2O_4粉末,加入不同含量的添加剂Bi_2O_3,在不同烧结温度和保温时间下进行烧结.采用XRD、VSM 等分析手段,研究了烧结制度与NiFe_2O_4烧结样品的物相、密度及磁性能的关系.实验确定最佳的烧结工艺:烧结温度1200 ℃,保温时间3 h,添加烧结助剂Bi_2O_3的含量为5%(质量分数,下同).在最佳烧结制度下,获得的NiFe_2O_4固相反应充分,具有单一的尖晶石相,烧结样品具有较高的密度和良好的磁性能.
為瞭確定自蔓延高溫閤成(SHS)NiFe_2O_4的最佳燒結製度,通過SHS技術製備穫得NiFe_2O_4粉末,加入不同含量的添加劑Bi_2O_3,在不同燒結溫度和保溫時間下進行燒結.採用XRD、VSM 等分析手段,研究瞭燒結製度與NiFe_2O_4燒結樣品的物相、密度及磁性能的關繫.實驗確定最佳的燒結工藝:燒結溫度1200 ℃,保溫時間3 h,添加燒結助劑Bi_2O_3的含量為5%(質量分數,下同).在最佳燒結製度下,穫得的NiFe_2O_4固相反應充分,具有單一的尖晶石相,燒結樣品具有較高的密度和良好的磁性能.
위료학정자만연고온합성(SHS)NiFe_2O_4적최가소결제도,통과SHS기술제비획득NiFe_2O_4분말,가입불동함량적첨가제Bi_2O_3,재불동소결온도화보온시간하진행소결.채용XRD、VSM 등분석수단,연구료소결제도여NiFe_2O_4소결양품적물상、밀도급자성능적관계.실험학정최가적소결공예:소결온도1200 ℃,보온시간3 h,첨가소결조제Bi_2O_3적함량위5%(질량분수,하동).재최가소결제도하,획득적NiFe_2O_4고상반응충분,구유단일적첨정석상,소결양품구유교고적밀도화량호적자성능.
The sintering routine of NiFe_2O_4 prepared by SHS method was optimized with different sintering parameters such as sintering temperature, duration and additive Bi_2O_3. The ferrite powders were pressed into toroidal shapes and then sintered under different sintering conditions with different contents of additive. The characterizations of the ceramic samples were conducted by X-ray diffraction and vibrating sample magnetometer (VSM). The results show the density and magnetic properties of spinel ferrites depend on the sintering conditions. The optimal magnetic properties were obtained for the sample sintered at 1200 ℃ for 3 h and with 5% Bi_2O_3.
