透明YAG多晶陶瓷具有容易制造、成本低、尺寸大、掺杂浓度高、热导率高、耐热冲击性好、可大批量生产、易实现多层和多功能的陶瓷结构等优点,使得它作为激光介质而成为单晶的强有力的替代者.本实验以Y2O3、Al(NO3)3*9H2O、(NH4)2SO4为原料,尿素为沉淀剂,正硅酸乙酯作为添加剂,采用均相共沉淀法制备出YAG前驱体粉末,在沉淀过程中采用静电稳定、聚合物空间位阻以及共沸方法相结合有效地防止了纳米颗粒硬团聚的形成,YAG前驱体颗粒尺寸小于50nm,并对反应过程中pH值的变化进行研究.采用DTA/TG、IR、 XRD和TEM测试手段对粉末材料进行了表征,根据Scherrer公式计算出晶粒大小,研究了晶粒尺寸分布及其变化情况.研究结果表明:前驱体粉末经过1 200℃温度烧结后,全部转化YAG相,其晶粒尺寸小于50nm,随着烧结温度升高,晶粒平均尺寸增大.
参考文献
| [1] | JianrenLU;Junhua LU.DevelopmentofNd:YAGceramicslasers[J].Advances in Solid State Lasers,2002(68):507-517. |
| [2] | AkioIkesue;Iso Furusato;Kiichiro Kamata .FabricationofPolycrystalline,TransparentYAGCeramicsbyaSolid-SateReactionMethod[J].Journal of the American Ceramic Society,1995,78(01):225-228. |
| [3] | R S Hay .Phasetransformationandmicrostructureevolutioninsol-gelderivedyttrium-aluminumgarnetfilms[J].Journal of Materials Research,1993,8(03):578-604. |
| [4] | May Nyman;James Caruso;Mark J.Hampden-smith .Comparison of solid-state and spray-pyrolysis syntesis of yttrium aluminate powders[J].Journal of the American Ceramic Society,1997(5):1231-12138. |
| [5] | D J Sordelet;M Akinc;M L Panchula;YHan .SynthesisofYttriumAluminumGarnetPrecursorPowdersbyHomogeneousPrecipitation[J].Journal of the European Ceramic Society,1994,14(01):123-130. |
| [6] | NayoMatsushita;Noriyoshi Tsuchiya;Katsuka .PrecipitationandCalcinationProcessedforYttriumAlminumGarnetPrecursorsSynthesizedbytheUreaMethod[J].Journal of the American Ceramic Society,1999,82(08):1977-1984. |
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