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保温时间对反应烧结合成CA_6性能和显微结构的影响 被引量:2

Effect of soaking time on properties and microstructure of calcium hexaluminate synthesized by reaction sintering
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摘要 以活性α-Al2O3和轻质碳酸钙为原料,在1 400℃空气气氛中反应烧结合成了六铝酸钙(CA6),并研究了保温时间(分别为30、60、120、180和240 min)对合成CA6的物相组成、物理性能和显微结构的影响。结果表明:在1 400℃下,适当延长保温时间可以提高CA6的生成量,保温120 min之前已迅速合成CA6,完全合成CA6需保温240 min以上;随着保温时间的延长,试样的体积密度先减小后增加,其显气孔率和常温耐压强度则相反,线膨胀逐渐增大,试样中CA6片状晶体形貌更加明显;试样中的CA6片状晶体在1 400℃保温30 min时已开始生成,生长和发育主要是在保温180 min之前。 Calcium hexaluminate (CA6) was synthesized at 1 400℃ under air atmosphere by reaction sintering from light-weight calcium carbonate and activated α-Al2O3. The influence of soaking times (30,60,120, 180 and 240 min) on the phase composition, microstructure and physical properties of calcium hexaluminate was investigated. The results show that. ( 1 ) prolonging soaking time appropriately can increase the formation amount of CA6 ;CA6 has been synthesized rapidly before soaking for 120 min,while the complete synthesis of CA6 needs soaking time over 240 min; (2) prolonging the soaking time,the volume density of specimens first decreases and then increases, the apparent porosity and cold crushing strength are the opposite,the expansion rate in dimensions increases gradually,and the planar morphology of CA6 generated in specimens is more obvious;(3)the planar CA6 crystal grains start to form when soaking for 30 min at 1 400 ℃,and grow and develop primarily before soaking for 180 min.
作者 刘小林 刘开琪 谢笑虎 刘永锋 罗志勇
机构地区 中国钢研科技集团有限公司特种陶瓷与耐火材料北京市重点实验室
出处 《耐火材料》 CAS 北大核心 2012年第5期330-333,共4页 Refractories
关键词 活性α-Al2O3 碳酸钙 六铝酸钙 保温时间 activated s-alumina calcium carbonate calcium hexaluminate soaking time
分类号 TQ175.4 [化学工程—硅酸盐工业]
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  • 1裴春秋,石干,徐建峰.六铝酸钙新型隔热耐火材料的性能及应用[J].工业炉,2007,29(1):45-49. 被引量:25
  • 2L.An, H M Chan. Control of calcium hexaluminate grain morphology in in-situ toughened ceramic composites[J]. Journal of Material Science, 1996, 31: 3223-3229.
  • 3Cristina Dominguez, Jerome Chevalier, Ramon Torrecillas, Gilbert Fantozzi. Microstructure Development in Calcium Hexaluminate[J]. Journal of the European Ceramic Society, 2001, 21: 381-387.
  • 4Linan An, Helen M Chart. R - curve behavior of in-situ toughened Al2O3:CaAl12O19 ceramic composites. J Am Ceram Sce, 1996, 79(12) :3142 -3148.
  • 5Michael K Cinibulk. Hexaluminates as a cleavable fiber-matrix interphase : synthesis, texture development, and phase compatibility. J Eur Ceram Soc ,2000,20:569 - 582.
  • 6Sanchez-Herencia A J, Moreno R, Baudin. Fracture behavior of aluminacalcium hexaluminate composites obtained by colloidal processing. J Eur Ceram Soc ,2000,20:2575 - 2583.
  • 7Asmi D,Low I M. Processing of an in-situ layered and graded alumina/calcium hexaluminate composite: Physical characteristics. J Eur Ceram Soc, 1998,18:2019 - 2024.
  • 8Dominguez C, Chevalier J, Torrecilas R, et al. Microstrucmre development in calcium hexaluminate. J Eur Ceram Soc,2001,21:381 -387.
  • 9Tulliani J M, Pages G, Fantozzi G,et al. Dilatometry as a tool to study a new synthesis for calcium hexaluminate. J Therm Analys and Calorimet,2003,72:1135 - 1140.
  • 10Fuhrer M, Hey A, Lee W E. Microstructural evolution in self-forming spinel/calcium aluminate-bonded castable refractories. J Eur Ceram Soc,1998,18:813 -820.

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耐火材料
2012年 第5期

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