陶瓷学报
陶瓷學報
도자학보
Journal of Ceramics
2015年
5期
492-495
,共4页
喻佑华%尤琪%刘建磊%熊甜甜
喻祐華%尤琪%劉建磊%熊甜甜
유우화%우기%류건뢰%웅첨첨
硅酸锆%溶胶-凝胶法%矿化剂%氟化钠
硅痠鋯%溶膠-凝膠法%礦化劑%氟化鈉
규산고%용효-응효법%광화제%불화납
zircon%sol-gel method%mineralizer%sodium fluoride
采用溶胶-凝胶法(sol-gel)合成ZrSiO4粉体,以正硅酸乙酯[Si(OC2H5)4]和氧氯化锆(ZrOCl2·8H2O)为原料,无水乙醇和去离子水为溶剂,氟化钠为矿化剂,并借助XRD、SEM等测试手段分析了合成样品的晶相组成及其微观形貌.结果表明:没有引入矿化剂的样品,合成硅酸锆的初始温度高达1250 ℃以上,当温度达到1500 ℃时,硅酸锆的合成率也不是很高;然而,在溶胶中引入矿化剂NaF后,前驱体热处理温度为550 ℃时,粉体中开始有ZrSiO4的晶相生成,当温度升高至800 ℃时,硅酸锆的晶相含量已经很高,结晶程度很好.
採用溶膠-凝膠法(sol-gel)閤成ZrSiO4粉體,以正硅痠乙酯[Si(OC2H5)4]和氧氯化鋯(ZrOCl2·8H2O)為原料,無水乙醇和去離子水為溶劑,氟化鈉為礦化劑,併藉助XRD、SEM等測試手段分析瞭閤成樣品的晶相組成及其微觀形貌.結果錶明:沒有引入礦化劑的樣品,閤成硅痠鋯的初始溫度高達1250 ℃以上,噹溫度達到1500 ℃時,硅痠鋯的閤成率也不是很高;然而,在溶膠中引入礦化劑NaF後,前驅體熱處理溫度為550 ℃時,粉體中開始有ZrSiO4的晶相生成,噹溫度升高至800 ℃時,硅痠鋯的晶相含量已經很高,結晶程度很好.
채용용효-응효법(sol-gel)합성ZrSiO4분체,이정규산을지[Si(OC2H5)4]화양록화고(ZrOCl2·8H2O)위원료,무수을순화거리자수위용제,불화납위광화제,병차조XRD、SEM등측시수단분석료합성양품적정상조성급기미관형모.결과표명:몰유인입광화제적양품,합성규산고적초시온도고체1250 ℃이상,당온도체도1500 ℃시,규산고적합성솔야불시흔고;연이,재용효중인입광화제NaF후,전구체열처리온도위550 ℃시,분체중개시유ZrSiO4적정상생성,당온도승고지800 ℃시,규산고적정상함량이경흔고,결정정도흔호.
Zircon powders were prepared by sol-gel method at low temperature using zirconium oxychloride and tetraethoxysilane as raw materials,deionized water and ethanol as dissolvants,NaF as a mineralizer to promote crystallization of zircon powder. The characterization techniques such as XRD and SEM are used to analyze the phase composition and the microstructures. The results show that the original synthesis temperature of zircon is as high as 1250℃ without the introduction of any mineralizers to precursor sols,when the temperature is raised up to 1500℃,the synthesis ratio of zircon powder is not very high,however,by adding sodium fluoride as a mineralizer to the sols,the crystalline phase of zircon appears at 550℃ and the zircon powder which is calcined at the temperature of 800℃ not only has a high synthesis ratio,but also shows good crystallinity.