以溶胶凝胶法制备负热膨胀材料ZrW2O8粉体并与固相法制备的粉体相比较.对其前驱体进行热重-差热分析(TG-DSC)、以X射线粉末衍射(XRD)、透射电镜(TEM)、扫描电子显微镜(SEM)分别对粉体进行物相分析和形貌观测.结果表明溶胶凝胶法比固相法合成温度低,于610℃合成单一立方结构ZrW2O8粉体,并且粉体颗粒比固相法小,为100nm;ZrW2O8粉体有很好的负热膨胀特性,以高温X射线衍射分析,在室温约500℃范围内,溶胶凝胶法制备的粉体的热膨胀系数为-5.93×10-6/K;比固相法(-6.31×10-6/K)的略低.
参考文献
| [1] | Mary T A;Evans J S O;Vogt T et al.[J].Science,1996,272:90-92. |
| [2] | Evans J S O;Mary T A;Vogt T et al.[J].Chemistry of Materials,1996,8:2809-2823. |
| [3] | Evans JSO.;Ibberson RM.;Duan N.;Kameswari U.;Sleight AW.;Hanson PA. .Low-temperature oxygen migration and negative thermal expansion in ZrW2-xMoxO8[J].Journal of the American Chemical Society,2000(36):8694-8699. |
| [4] | Yamamura Y;Tsuji T;Saito K et al.[J].Journal of Chemical Thermodynamics,2004,36:525-531. |
| [5] | Pryde A K A;Hammonds K D;Dove M T et al.[J].Journal of Physics:Condensed Matter,1996,8:10973-10982. |
| [6] | Tao JZ.;Sleight AW. .The role of rigid unit modes in negative thermal expansion[J].International Journal of Quantum Chemistry,2003(2):442-448. |
| [7] | Evans J S O .[J].Journal of the Chemical Society,1999,19:3317-3326. |
| [8] | Fleming et al.[P].US 5694503,1996. |
| [9] | Chang L L Y;Scroger M G;Philips B .[J].Journal of the American Ceramic Society,1967,50(02):211-215. |
| [10] | 程晓农,孙秀娟,杨娟,徐桂芳.固相法合成负热膨胀性粉体ZrW2O8[J].江苏大学学报(自然科学版),2005(04):350-353. |
| [11] | 李钢,姚杰,王克宇,周耀明,张宁.一种负热膨胀性材料的物相结构分析[J].南京师大学报(自然科学版),2000(01):56-59. |
| [12] | 孙秀娟,杨娟,刘芹芹,程晓农.共沉淀法制备负热膨胀性ZrW2O8粉体及其粒径控制初探[J].无机化学学报,2005(09):1412-1416. |
| [13] | Kameswari U;Sleight A W;Evans J S O .[J].International Journal of Inorganic Materials,2000,2:333-337. |
| [14] | Kowach GR. .Growth of single crystals of ZrW2O8[J].Journal of Crystal Growth,2000(1/2):167-172. |
| [15] | 张美芬,杨娟,严学华,程晓农.ZrW2O8的合成及高温转变过程[J].功能材料,2004(05):568-570. |
| [16] | Dong C .[J].Journal of Applied Crystallography,1999,32:838-838. |
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