透明YAG多晶陶瓷具有优良的光学、机械与化学性能,逐渐成为新一代固体激光基质材料.分散均匀、团聚轻、超细颗粒的纳米前驱体粉末有利于制备出高度透明的激光陶瓷.以Y2O3,Al(NO3)3·9H2O和柠檬酸为原料,采用柠檬酸-凝胶法和低温自蔓延燃烧反应相结合制备出黑色粉末,经1100℃烧结出YAG纳米前驱体粉末.采用TG-DTA,XRD,FT-IR和TEM测试手段对YAG前驱体粉末进行表征,采用谢莱公式计算出不同烧结温度下晶粒尺寸.研究结果表明:随热处理温度升高,晶粒平均尺寸增加,标准偏差以小幅度增加,晶粒尺寸分布曲线保持一致,晶格参数减小.随热处理时间增加,晶粒主要以晶界扩散形式线性长大.纳米晶粒表面原子呈不规则分布,导致晶格参数增加,前驱体颗粒由单个晶粒所构成.
参考文献
| [1] | Jianren L U .Development of Nd:YAG ceramics lasers[J].Advances in Solid State Lasers,2002,68:507-517. |
| [2] | 闻雷,孙旭东,马伟民.固相反应法制备YAG透明陶瓷[J].硅酸盐学报,2003(09):819-822. |
| [3] | Nyman M .Comparison of solid - state and spray pyrolysis synthesis of yttrium aluminate powders[J].Journal of the American Ceramic Society,1997,80(05):1231-1238. |
| [4] | Hay R S .Phase transformation and microstructure evolution in sol - gel derived yttrium - aluminum garnet films[J].Journal of Mater Re,1993,8(03):578-604. |
| [5] | 李江,潘裕柏,张俊计,黄莉萍,郭景坤.共沉淀法制备钇铝石榴石(YAG)纳米粉体[J].硅酸盐学报,2003(05):490-493. |
| [6] | 张芳,秦小梅,修稚萌,由健,孙旭东.钇铝硝酸盐共熔制备YAG微粉[J].功能材料,2002(01):88-89. |
| [7] | Pechini M P .Method of preparing lead and alkaline earth titanate and niobates and coating method using the same to form a capacitor[P].US 330697,1967-07-11. |
| [8] | Ramanathan S .Processing and characterization of combustion synthesized YAG powders[J].Ceramics International,2003,29(01):477-484. |
| [9] | Rahaman M N.Ceramic Processing and Sintering[M].New York:Marcel Dekker Inc,1995:431-467. |
| [10] | Vaqueirol P .Synthesis of yttrium aluminum garnet by the citrate gel process[J].Journal of Materials Chemistry,1998,8(01):161-163. |
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