功能材料
功能材料
공능재료
JOURNAL OF FUNCTIONAL MATERIALS
2013年
19期
2756-2758,2763
,共4页
韩建桥%王芬%朱建锋%郭晓波
韓建橋%王芬%硃建鋒%郭曉波
한건교%왕분%주건봉%곽효파
硬脂酸凝胶法%LaNi0. 6Fe0. 4O3%粉体制备%亚微米粉体%固体氧化物燃料电池
硬脂痠凝膠法%LaNi0. 6Fe0. 4O3%粉體製備%亞微米粉體%固體氧化物燃料電池
경지산응효법%LaNi0. 6Fe0. 4O3%분체제비%아미미분체%고체양화물연료전지
stearic acid gel method%LaNi0. 6Fe0. 4O3%preparation of powder%submicron powder%SOFC
以硬脂酸、氧化镧、硝酸镍和硝酸铁为原料,采用硬脂酸凝胶法合成了纯相 LaNi0.6 Fe0.4 O3粉体。为避免制备过程中产生杂相,实验采用了直接煅烧法,即先将炉内温度升至煅烧温度保持恒温,然后将凝胶置于炉内焙烧。在650℃下成功合成了 La-Ni0.6 Fe0.4 O3粉体。用差示扫描量热法(DSC)和热重分析(TG)对其热处理过程进行分析,并用X射线衍射分析(XRD)和扫描电镜(SEM)对其结构和形貌进行表征。结果表明,合成的 LaNi0.6 Fe0.4 O3粉体纯度高、分散性好,粒径<1μm,且工艺过程简单,具有较好应用前景。
以硬脂痠、氧化鑭、硝痠鎳和硝痠鐵為原料,採用硬脂痠凝膠法閤成瞭純相 LaNi0.6 Fe0.4 O3粉體。為避免製備過程中產生雜相,實驗採用瞭直接煅燒法,即先將爐內溫度升至煅燒溫度保持恆溫,然後將凝膠置于爐內焙燒。在650℃下成功閤成瞭 La-Ni0.6 Fe0.4 O3粉體。用差示掃描量熱法(DSC)和熱重分析(TG)對其熱處理過程進行分析,併用X射線衍射分析(XRD)和掃描電鏡(SEM)對其結構和形貌進行錶徵。結果錶明,閤成的 LaNi0.6 Fe0.4 O3粉體純度高、分散性好,粒徑<1μm,且工藝過程簡單,具有較好應用前景。
이경지산、양화란、초산얼화초산철위원료,채용경지산응효법합성료순상 LaNi0.6 Fe0.4 O3분체。위피면제비과정중산생잡상,실험채용료직접단소법,즉선장로내온도승지단소온도보지항온,연후장응효치우로내배소。재650℃하성공합성료 La-Ni0.6 Fe0.4 O3분체。용차시소묘량열법(DSC)화열중분석(TG)대기열처리과정진행분석,병용X사선연사분석(XRD)화소묘전경(SEM)대기결구화형모진행표정。결과표명,합성적 LaNi0.6 Fe0.4 O3분체순도고、분산성호,립경<1μm,차공예과정간단,구유교호응용전경。
LaNi0.6 Fe0.4 O3 cathode powders for solid oxide fuel cell was synthesized at 650℃ by stearic acid gel method using stearic acid,lanthanum oxide,nickel nitrate and ferric nitrate as raw materials.The direct calci-nation method was designed to efficiently avoid the formation of the impurities in the synthesis process.Differ-ential scanning caborimetry analysis (DSC)and thermogravimetric analysis (TG)were used to characterize the process of calcining. The powder properties were characterized by XRD and SEM. The as-prepared La-Ni0.6 Fe0.4 O3 powders showed a better degree of crystallization and a high degree of purity after calcined at 650℃for 2h.The size of particles with perovskite structure was in sub-micron and no large reunite in the powder.
