Ce_(0.8)Y_(0.2)O_(1.9)氧化物的烧结及晶粒生长动力学研究

Study of Sintering and Grain-growth Kinetics for Ce_(0.8)Y_(0.2)O_(1.9) Oxide

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摘要通过对Ce0.8Y0.2O1.9（YDC）素坯烧结行为的考察,得到了试样的密度、晶粒大小随烧结温度（1000~1500℃）的变化规律。利用扫描电子显微镜对烧结体的晶粒尺寸分布进行统计分析表明：Ce0.8Y0.2O1.9晶粒生长在两个烧结温度区域内分别遵循不同的速率方程,在1000~1300℃较低的温度范围内,晶粒成长的活化能较小（171.1 kJ/mol）,即烧结温度对晶粒成长的影响较小;在1300~1500℃较高的温度范围,晶粒生长的活化能较大（479.8 kJ/mol）,即晶粒成长对烧结温度的高低表现为非常敏感,并且晶粒尺寸分布显著宽化。烧结体的密度在1000~1400℃范围内随温度的升高几乎直线上升,在1400℃时相对密度达98.5%,1400℃以上则提高的幅度变得很小。 The dependence of the density and grain size of Ce_（0.8）Y_（0.2）O_（1.9） on sintering temperature（1000~1500 ℃） was studied.Statistical analysis of grain size by SEM observation suggested that the grain growth of Ce_（0.8）Y_（0.2）O_（1.9） followed different kinetic equations when sintered at two different temperature ranges.At low temperature range of 1000~1300 ℃,the activation energy of grain growth was relative small（171.1 kJ/mol）,indicating a weak effect of temperature on the grain size.However,at high temperature range of 1300- 1500℃, the activation energy became large（479. 8 kJ/mol）, indicating the gram growth was sensitive to the sintering temperature. The dispersion of the distribution of grain size also became evident. The relative density of the sintered body increased fast with increasing temperature and reached 98.5% at 1400 ℃. Then, it increased gradually at temperature above 1400℃.

作者董如林杨春娟陈智栋

机构地区江苏工业学院化学工程系

出处《化学世界》 CAS CSCD 北大核心 2009年第10期590-593,共4页 Chemical World

基金留学回国人员科研启动基金资助项目[2006]331

关键词 Ce0.8Y0.2O1.9 烧结密度晶粒生长活化能 Ce0.8Y.2O1.9 sintering density activation energy of grain growth

分类号 O614.32 [理学—无机化学]

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1Kim S K, Lee S, Paik U, et al. Influence of the electrokinetic behaviors of abrastive ceria particles and the deposited plasma-enhanced tetraethy-lorthosilicate and chemically vapor deposited Si3N4 films in an aqueous medium on chemical mechanical planarlzation for shallow trenchisoiation [ J ]. Journal of Materlats Research, 2003,18(9) :2163-2169.
2Aruna S T, Ghosh S, Patil K C. Combusdon synthesis and properties of Ce1-x PrxO2-delta red ceramic pigments [ J ]. International Journal of Inorganic Materials, 2001,3(45) :387-392.
3Feng B, Wang C Y, Zhu B. Catalysts and performances for direct Methanol row-temperature(300 to 600 degrees C) solid oxide fuel cells [ J ], Electrochemical and Solid State Letters 200G, 9 ( 2 ):A80-A81.
4Zhang T S, Ma J, Kong L B, et al. Aging behavior and ionic conductivity of ceria-based ceramics: a comparative study[J]. Solid State Ionics 1, 2004, 70 (34) :209-217.
5Jasinski P, Suzuki T, Anderson H U. Nanoczystallne undoped ceria oxygen sensor [J ]. Sensors and Actuators B,Chemical. 2003,95(13) : 73-77.
6Eguchi K, Setoguchi T, Inoue T, et el, Electrical properties of ceria-based oxides and their applicaion to solid oxide fuel cell[J]. Solid State Ionics, 1992, 58: 165-172.
7Li W, Gao L. Rapid sintering of nanocrystalline ZrO3(3Y) by spark plasma sintering[J]. Journal by the European Ceramic, 2000,20 :2441-2445.

1李飞,李雁淮,宋忠孝,徐可为,马大衍,高波,崔红.水热法制备纳米氧化锆煅烧过程中晶粒生长特性研究（英文）[J].稀有金属材料与工程,2017,46(4):899-905. 被引量：4
2水淼,徐铸德,岳林海.纳米掺铁二氧化钛的sol-gel法制备与表征 (II)纳米掺铁二氧化钛的微晶特性与晶体生长[J].无机化学学报,2001,17(1):32-36. 被引量：5
3古堂生,石舜森,林光明.测定纳米晶粒尺寸分布的新方法及其应用[J].物理学报,1999,48(2):267-272. 被引量：14
4刘双怀,周根陶,彭定坤,周贵恩,陆斌.二氧化钛超微粉末的热分析及结构转变[J].Chinese Journal of Chemical Physics,1994,7(3):227-232. 被引量：8
5岳林海,水淼,徐铸德,郑遗凡.水解法制备的掺铁二氧化钛超微粉的热分析、晶粒生长和结构相变[J].无机化学学报,2000,16(5):793-799. 被引量：11
6王本辉,刘瑞泉,王吉德,李志杰,谢亚红.Ce_(0.8)Y_(0.2)O_(1.9)-Ca_3(PO_4)_2-K_3PO_4复合电解质在中温区的质子导电性及在常压合成氨中的应用[J].无机化学学报,2005,21(10):1551-1555. 被引量：3
7何为红,李福春,吴志强,代静玉,刘本定.重金属离子在胡敏酸-高岭石复合体上的吸附[J].岩石矿物学杂志,2007,26(4):359-365. 被引量：17
8孙秀果,张建民,李更辰,周炬.TiO_2纳米粉体的烧结行为及其性能的研究[J].电子元件与材料,2006,25(2):15-17. 被引量：3
9顾利霞,陈霏,王松林.聚己内酰胺－聚乙二醇嵌段共聚物的结构和性能Ⅲ．嵌段共聚物的结晶特性[J].合成纤维工业,1994,17(3):15-19. 被引量：4
10牛国兴,李全芝.Mo／USY催化剂中USY骨架结构稳定性对MoO_3烧结行为的影响[J].高等学校化学学报,1995,16(4):608-612. 被引量：2

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Ce_(0.8)Y_(0.2)O_(1.9)氧化物的烧结及晶粒生长动力学研究

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