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
71-74
,共4页
陈大明%仝建峰%张合军%张文华
陳大明%仝建峰%張閤軍%張文華
진대명%동건봉%장합군%장문화
氧化锆%超细粉体%凝胶固相反应合成
氧化鋯%超細粉體%凝膠固相反應閤成
양화고%초세분체%응효고상반응합성
zirconia%ultra-fine powder%gel solid state synthesis technique
介绍了一种用凝胶固相反应法合成低比表面积高烧结活性3mol%Y_2O_3-ZrO_2粉体的新技术.该技术以高纯氧化锆粉体和草酸钇粉体及少量有机物为原料配制水基料浆,混磨均匀后使其快速凝胶化,凝胶块干燥后于1300 ℃煅烧合成,再经搅拌磨研磨6 h,即得到t相超细Y-TZP粉体.其比表面积为6.8 m~2/g, d_(10)=0.17 μm,d_(50)=0.46 μm,d_(90)=0.82 μm.该粉体合成技术具有原料来源方便、成本低、污染少,操作简便,普适性强等优点,适合于工业化生产.
介紹瞭一種用凝膠固相反應法閤成低比錶麵積高燒結活性3mol%Y_2O_3-ZrO_2粉體的新技術.該技術以高純氧化鋯粉體和草痠釔粉體及少量有機物為原料配製水基料漿,混磨均勻後使其快速凝膠化,凝膠塊榦燥後于1300 ℃煅燒閤成,再經攪拌磨研磨6 h,即得到t相超細Y-TZP粉體.其比錶麵積為6.8 m~2/g, d_(10)=0.17 μm,d_(50)=0.46 μm,d_(90)=0.82 μm.該粉體閤成技術具有原料來源方便、成本低、汙染少,操作簡便,普適性彊等優點,適閤于工業化生產.
개소료일충용응효고상반응법합성저비표면적고소결활성3mol%Y_2O_3-ZrO_2분체적신기술.해기술이고순양화고분체화초산을분체급소량유궤물위원료배제수기료장,혼마균균후사기쾌속응효화,응효괴간조후우1300 ℃단소합성,재경교반마연마6 h,즉득도t상초세Y-TZP분체.기비표면적위6.8 m~2/g, d_(10)=0.17 μm,d_(50)=0.46 μm,d_(90)=0.82 μm.해분체합성기술구유원료래원방편、성본저、오염소,조작간편,보괄성강등우점,괄합우공업화생산.
A gel solid state synthesis technique for producing 3mol%Y_2O_3-ZrO_2 (Y-TZP) powder with low specific surface area and high sintering ability were introduced. Water based ceramic slurry was prepared using high pure ZrO_2, Y(C_2O_4)_3 and a small amount of gelating agents as raw materials. After grinding homogeneously, quickly gelating, drying and firing at 1300 ℃,t-phase ultra-fine Y-TZP powder can be obtained. The powder reground in attrition miller for 6 h, has the specific surface area of 6.8 m~2/g, d_(10)=0.17 μm, and d_(50)=0.46 μm, d_(90)=0.82 μm. This synthesis technique of composite powders is applicable for industrial manufacture because of its convenient raw materials, low cost, few atmosphere pollution, simple operation and universal application.
