Research on sintering process of YSZ electrolyte 被引量：8

Research on sintering process of YSZ electrolyte

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摘要 Yttria stabilized zirconia (YSZ) has widely been used as electrolyte in solid oxide fuel cell (SOFC). The microstructure of YSZ related to the fabrication process was discussed in the paper. With YSZ nano-powders about 40-100 nm as raw material, the YSZ adobe was manufactured by tape calendering process. The named three-step sintering process was performed at 1000 ℃ for 2 h, then raised the temperature with normal rate and as soon as up to 1400 ℃, the furnace was controlled at 1250-1300 ℃ for 10-20 h. The high dense YSZs with the relative density of 96%-99% were obtained; the grain size of YSZ could be reduced to 0.5-3 μm. The above result is benefited to co-fired in the electrode-supported SOFCs. Yttria stabilized zirconia (YSZ) has widely been used as electrolyte in solid oxide fuel cell (SOFC). The microstructure of YSZ related to the fabrication process was discussed in the paper. With YSZ nano-powders about 40-100 nm as raw material, the YSZ adobe was manufactured by tape calendering process. The named three-step sintering process was performed at 1000 ℃ for 2 h, then raised the temperature with normal rate and as soon as up to 1400 ℃, the furnace was controlled at 1250-1300 ℃ for 10-20 h. The high dense YSZs with the relative density of 96%-99% were obtained; the grain size of YSZ could be reduced to 0.5-3 μm. The above result is benefited to co-fired in the electrode-supported SOFCs.

作者 HAN Minfang TANG Xiuling PENG Suping

机构地区 Union Research Center of Fuel Cell

出处《Rare Metals》 SCIE EI CAS CSCD 2006年第z2期209-212,共4页 稀有金属（英文版）

基金 The project was financiallysupportedby Ministry of Education,China(No.106087)and 863 Program of National High Technology Research Development Project,China(2005AA501050).

关键词 yttria stabilized zirconia (YSZ) ELECTROLYTE sintering process yttria stabilized zirconia (YSZ) electrolyte sintering process

分类号 TG146.4 [金属学及工艺—金属材料]

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参考文献16

1[1]Minh N.Q.,and Takahashi T.,Science and Technology of Ceramic Fuel Cells,Elsevier,Amsterdam,1995.
2[2]Steele B.C.,High conductivity solid ionic conductors,ed.Takahashi T.,World Scientific,Singapore,1989.
3[3]Stevenson J.W.,Hasinska K.,Canfield N.L.,et al.,Influence of cobalt and iron additions on the electrical and thermal properties of (La,Sr)(Ga,Mg)O3-δ.Journal of the Electrochemical Society,2000,147(9):3213.
4[4]Bao Weitao,Chang Qibing,and Meng Guangyao,Effect of NiO/YSZ compositions on the co-sintering process of anode-supported fuel cell.Journal of Membrane Science,2005,259:103.
5[5]Basu Rajendra N,and Blass Günter,Simplified processing of anode-supported thin film planar solid oxide fuel cells.Journal of the European Ceramic Society,2005,25:463.
6[6]Himeko Orui,Kimitaka Watanabe,Masayasu Arakara,Electrochemical characteristics of tubular flat-plate-SOFCs fabricated by co-firing cathode substrate and electrolyte.Journal of Power Sources,2002,112:90.
7[7]Yamahara Keiji,Jacobson Craig P.,Visco Steven J.,et al.,Catalyst-infiltrated supporting cathode for thin-film SOFCs.Solid State Ionics,2005,176:451.
8[8]Singhal Subhash C.,and Kendall Kevin,High Temperature Solid Oxide Fuel Cells:Fundamentals,Design and Applications.Elevier Ltd.2003:103.
9[9]Shi J.L.,Ruan M.L.,and Yen T.S.,Crystallite growth in yttria-doped superfine zirconia powders and their compacts:a comparison between Y-TZP and YSZ.Ceramics International,1996,22:137.
10[10]Han Minfang,Peng Suping,Sun Zaihong,et al.,Manufacture processing and properties of stabilized ZrO2 ultra fine powders for SOFC,Proceeding of U.S.China Clean Energy Technology Forum,I-161-169,2001,08,Beijing,China.

同被引文献61

1LU Zhixin YU Yanwen GUO Ruisong LI Hailong GUO Qian.Influence of t-ZrO_2 addition on mechanical property and electrical conductivity of YSZ electrolyte[J].Rare Metals,2006,25(z1):378-383. 被引量：1
2MinfangHan LijunHuo BotaoLi SupingPeng.Relation between powder size and electrolyte properties in nano YSZ system[J].Journal of University of Science and Technology Beijing,2005,12(1):78-80. 被引量：2
3吕振刚,郭瑞松,姚琲,代凤英.复合掺杂对YSZ电解质材料烧结性与电性能的影响[J].稀有金属材料与工程,2005,34(12):1961-1964. 被引量：6
4李蓉,吴建民,周少雄,钱九红.Effects of Cobalt Content and Preparation on Electrochemical Capacity of AB_5-Type Hydrogen Storage Alloys at Different Temperature[J].Journal of Rare Earths,2006,24(3):341-345. 被引量：6
5吕振刚,郭瑞松,代凤英,姚琲,李海龙.甘氨酸燃烧合成多元掺杂YSZ电解质材料[J].天津大学学报,2006,39(7):837-841. 被引量：1
6章天金,彭芳明,唐超群,王世敏,吴新明,张端明.溶胶－凝胶工艺合成ZrO_2超微粉末的研究[J].无机材料学报,1996,11(3):435-440. 被引量：44
7唐有根,舒红,曹泽华,彭胜峰,杨习文.湿法球磨结合表面改性制备贮氢合金粉[J].中南大学学报（自然科学版）,2006,37(6):1112-1116. 被引量：3
8BAE J, LIM S, JEE H,et al. Small stack performance of intermediate temperature-operating solid oxide fuel ceils using stainless steel interconnects and anode-supported single cell [J]. Journal of Power Sources, 2007, 172(1): 100-107.
9GONG W Q, GOPALAN S, PAL U B. Performance of intermediate temperature (600- 800 ℃ ) solid oxide fuel cell based on Sr and Mg doped lanthanum-gallate electrolyte [J]. Journal of Power Sources, 2006, 160(1): 305-315.
10XIA C R, RAUCH W, CHEN F L, et al. Sm0.5Sr0.5CoO3 cathodes for low-temperature SOFCs [J]. Solid State lonics, 2002, 149 (1/2): 11-19.

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2韩敏芳,杨志宾,刘泽,彭苏萍.亚微米晶粒氧化钇稳定氧化锆电解质的稳定性[J].硅酸盐学报,2010,38(1):1-6. 被引量：3
3江虹,郭瑞松,任建勋.ZnO对8YSZ电解质材料的烧结性与电化学性能的影响[J].硅酸盐学报,2010,38(8):1434-1439. 被引量：11
4熊洁,刘泽,韩敏芳.氧化铈基燃料电池高性能阴极研究[J].电源技术,2011,35(5):615-618. 被引量：2
5陈虹锦,唐安江,王明媚,宗原.氧化钇稳定氧化锆的制备及电性能测试[J].广州化工,2012,40(5):63-65. 被引量：1
6申玉求,周怀营,姚青荣,王仲民,钟燕.低钴LaNi_(4.5)Co_(0.4-x)Al_(0.1+x)储氢合金的相结构和电极性能[J].中国稀土学报,2012,30(5):581-586. 被引量：3
7詹迎旭,王经逸,肖晖,曾安蓉,胡苹.不同烧结工艺对固体氧化物燃料电池电性能的影响[J].广东轻工职业技术学院学报,2024,23(3):1-6.
8范宝安,颜家保,邱江华,颜晓潮.水热法制备8YSZ纳米粉体及其烧结活性的研究[J].纳米技术,2011,1(1):6-11.

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4熊洁,焦成冉,韩敏芳.不同燃料SOFC的理论电池电动势及其性能[J].化工学报,2013,64(7):2664-2671. 被引量：5
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6唐仁衡,王英,肖方明,孙泰,周顺.La_(0.6)Ce_(0.4)(NiCo_(0.16-x)Mn_(0.1)Al_x)_5(x=0.04,0.06,0.08)合金制备及电化学性能研究[J].材料研究与应用,2014,8(2):88-91. 被引量：2
7阳慧芳,徐志高,池汝安,李攀红,赵骏,祝都明.撞击流反应制备钇稳定氧化锆超细粉体[J].有色金属（冶炼部分）,2014(7):49-52. 被引量：3
8唐仁衡,周顺,肖方明,王英,孙泰.热处理温度对La_(0.8)Ce_(0.2)(NiCoMnAl)_5储氢合金结构与性能的影响[J].材料导报,2014,28(14):114-116. 被引量：3
9叶辉华,罗凌虹,程亮,石纪军,吴也凡.SOFC电解质8YSZ纳米粉体烧结行为的研究[J].陶瓷学报,2015,36(3):270-274. 被引量：2
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2沙维.Stress－rupture Property and Microstructure of Yttria Dispersion Strengthened Alloy MA956[J].Rare Metals,1996,15(3):214-221.
3LU Zhixin YU Yanwen GUO Ruisong LI Hailong GUO Qian.Influence of t-ZrO_2 addition on mechanical property and electrical conductivity of YSZ electrolyte[J].Rare Metals,2006,25(z1):378-383. 被引量：1
4吴华刚,华小和,唐国军.控轧控冷工艺对X70钢板组织及性能的影响[J].宽厚板,2011,17(6):1-4. 被引量：1
5LI Ying,WANG Xiaotian,JIN Zhihao Xi’an Jiaotong University,Xi’an,China SHl Guoshun Beijing Measuring and Analysing Center.Beijing,China.THE EFFECT OF SUBZERO TREATMENT ON THE MICROSTRUCTURE AND MECHANICAL PROPERTIES OF Y_2O_3-ZrO_2 CERAMIC[J].Acta Metallurgica Sinica(English Letters),1992,5(12):516-520.
6Leilei Sun,Hongbo Guo,Hui Peng,Shengkai Gong,Huibin Xu.Phase stability and thermal conductivity of ytterbia and yttria co-doped zirconia[J].Progress in Natural Science:Materials International,2013,23(4):440-445. 被引量：4
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8LI Changjiu,LI Chengxin,XING Yazhe,XIE Yingxin,LONG Huiguo.Influence of characteristics of stabilized zirconia electrolyte on performance of cermet supported tubular SOFCs[J].Rare Metals,2006,25(z1):273-279.
9Wang Tao,Jin Zhanpeng (Department of Materials Science and Engineering, Central South University of Technology, Changsha 410083, China).THERMODYNAMIC ASSESSMENT OF THE ZrO_2-AIO_(1.5) SYSTEM[J].Journal of Central South University,1997,9(2):108-112. 被引量：1
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Research on sintering process of YSZ electrolyte 被引量：8

参考文献16

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