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高温下氧化物与氟化物电解质反应研究 被引量:1

Reaction Between Oxides and Fluoride Electrolyte at High Temperature
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摘要 利用Factsage热力学软件预测分析了高温下典型氧化物分别与氟化物AlF3、Na3AlF6及K3AlF6之间的化学反应,并采用氧化物粉末与电解质混合和氧化物烧结体浸泡两种实验方法验证了900℃时氧化物与电解质的反应。采用X射线衍射仪及扫描电子显微镜等分析了试样的物相组成和显微结构。结果表明:主族元素氧化物普遍比过渡元素氧化物易于和含AlF3、Na3AlF6及K3AlF6的电解质反应;并且CaO.6Al2O3、MgAl2O4、Mg2TiO4、Al2TiO5、NiFe2O4与AlF3、Na3AlF6及K3AlF6电解质反应程度依次减弱;基于浸泡实验发现,降低烧结试样的显气孔率能有效提高其抗电解质侵蚀性能。 The chemical reactions between typical oxides and fluoride (A1F3, Naa AIF6 and Ka A1F6 ) were calcu lated by Factsage software. Then two experimental methods, namely oxide powders mixed with electrolyte and sin tered oxide specimen immersion tests were taken to verify the chemical reactions between oxides and electrolytes at 900℃. The phase composition and microstructure of the specimens after the experiments were analyzed by means of X-ray diffractometer and scanning electron microscope. The results show that the oxides of main group elements are commonly much easier than that of transition elements to react with electrolyte containing A1Fa, NaaAlF6 and KaAIF6; the reactions of CaO. 6Al2O3, MgA1204, Mg2TiO4, Al2TiO5, NiFe2O4 with electrolyte above become gradually weaker in order; electrolytic corrosion resistance of sintered specimens could be effectively improved by lo wering apparent porosity based on the results of immersion tests.
作者 徐义彪 李亚伟 桑绍柏 秦庆伟 杨建红
机构地区 武汉科技大学耐火材料与高温陶瓷国家重点实验室培育基地
出处 《材料导报》 EI CAS CSCD 北大核心 2012年第22期106-110,124,共6页 Materials Reports
基金 湖北省科技厅自然科学基金(2009CDA050)
关键词 化学反应 热力学预测 氧化物 电解质 抗侵蚀 chemical reaction, thermodynamic prediction, oxides, electrolyte, corrosion resistance
分类号 TQ170.1 [化学工程—硅酸盐工业]
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参考文献14

  • 1Brooks G, Cooksey M, Wellwood G, et al. Challenges in light metals production [J]. Miner Process Extr Metalh 2007,116(1) :25.
  • 2Wang Z, Skybakmoen E, Grande T. Spent Si: N, bonded SiC sidelining materials in aluminium electrolysis cells[C]// Light Metals 2009. Warrendale: TMS, 2009 : 353.
  • 3Sonntag A. New R-SiC extends service life in kiln furniture [J]. Am Ceram Soc Bu11,1997,76(11) :51.
  • 4Takahashi K, Murase H, Yoshida S, et al. Improvement of static fatigue strength of Sia N4/SiC crack-healed under cyclic stress[J]. J Eur Ceram Soe,2005,25(11):1953.
  • 5Pugh M D, Gavoret L. Nitridation of whisker reinforced reaction bonded silicon nitride ceramics [J]. J Mater Sci, 2000,35 (13) : 3257.
  • 6Kvande H, Haupin W. Inert anode for aluminium smelter: Energy balances and environment impac[J]. J Miner Met Mater Soc,2001,53(2) :29.
  • 7Hangen E, Einarsrud M, Grande T, et al. Chemical stabili- ty of ceramic sidelinings in Hall-Heroult cells[C]// I.ight Metals 2001. Warrendale: TMS,2001:257.
  • 8Yan X Y, Mukhlis R Z, Rhamdhani M A, et al. Aluminate spinels as sidewall linings for aluminum smelters[C]//Light Metals 2011. Warrendale: TMS, 2011 : 1085.
  • 9Yu X J, Zhang L P, Dong Y H, et al. Corrosion of zinc fe- rrite based inert anodes in A1Fa-NaF-A12 Oa melts under con- ditions of anodic polarization[J]. J Rare Earth, 2006,24 (1) : 352.
  • 10Yan X Y, Pownceby M I, Brooks G. Corrosion behavior of nickel ferrite-based ceramics for aluminum electrolysis cells [C]//Light Metals 2007. Warrendale: TMS, 9,007 : 909.

同被引文献5

  • 1焦万丽,张磊,姚广春,刘宜汉.NiFe_2O_4及添加TiO_2的尖晶石的烧结过程[J].硅酸盐学报,2004,32(9):1150-1153. 被引量:31
  • 2Berchmans L J,Selvan R K,Augustin C 0. Evaluation of Mg2+ -sub-stituted NiFe204 as a green anode material[ J]. Mater Lett,2004,58(12-13) :1928 -1933.
  • 3Colboum E A,Mackrodt W C. The calculated defect structure of bulkand 1 001 1 surface cation dopants in MgO [J]. J Mater Sci,1982,17(10) :3021 -3038.
  • 4Lee Y B, Park H C , Oh K D. Sintering and microstructure develop-ment in the system MgO-TiO2 [ J]. J Mater Sci, 1998 ,33 (17) :4321-4325.
  • 5Chen X L, Li Y W, Li Y B, et al. Effect of temperature on the proper-ties and microstructures of carbon refractories for blast furnace[ J].Metall Mater Trans A,2009 ,40(7) : 1675 -1683.

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材料导报
2012年 第22期

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