纳米ZrO2-8％Y2O3粉末的相转变及晶粒生长动力学

中国有色金属学报, 2011, 21(12): 3120-3128.

纳米ZrO2-8％Y2O3粉末的相转变及晶粒生长动力学

刘纯波 ^1, , 于连生 ^2, , 蒋显亮 ^3,

1.中南大学材料科学与工程学院,长沙410083

2.中南大学材料科学与工程学院,长沙410083

3.中南大学材料科学与工程学院,长沙410083

基金项目: 人事部回国留学人员择优发展项目中南大学研究生教育创新工程项目(1343-77212)

关键词：纳米氧化锆粉末 , 高温煅烧 , 相转变 , 晶粒生长 , 动力学

Phase transition and grain growth kinetics of nanocrystalline 8％ yttria stabilized zirconia powder

采用共沉淀法制备纳米ZrO2-8％Y2O3(质量分数)粉末,然后将其在大气中于1 100～1 300℃范围内高温煅烧处理2～32 h.利用XRD、SEM、TEM等方法研究纳米ZrO2-8％Y2O3粉末高温煅烧前后的相成分、形貌和晶粒粒径变化,并分析纳米ZrO2-8％Y2O3粉末的晶粒生长动力学及生长机制.结果表明:纳米ZrO2-8％Y2O3经高温煅烧后,单斜相和四方相含量随温度的升高和时间的延长而减少,立方相含量随温度的升高和时间的延长而增加;随温度的升高和时间的延长晶粒粒径逐渐增大;在1 250℃等温煅烧时,其晶粒生长指数为6,晶粒生长速率常数为7.626×1011 nm3/min:等温锻烧温度低于1 200℃时,晶粒生长活化能为64.35 kJ/mol,晶粒生长表现为以表面扩散为主的聚合生长；等温锻烧温度高于1 200℃时,晶粒生长活化能为1 16.40 kJ/mol,晶粒生长表现为以晶格扩散为主的聚合生长;另外,还可见晶粒旋转驱动的聚合生长机制;低的晶粒生长激活能归因于大量氧空位的引入和晶粒旋转驱动的聚合生长机制.

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