采用大分子量的聚丙烯酸做分数剂和粘接剂,通过对YAG粉体在去离子水介质中的Zeta电位和浓悬浮体的黏度等测试,详细研究了YAG悬浮体的分散特性以及流变行为.结果表明,悬浮体pH值和聚丙烯酸浓度将严重影响YAG粉体颗粒表面的Zeta电位,YAG粉体颗粒在pH=ll.5,聚丙烯酸浓度为2%(质量分数,下同)时Zeta电位绝对值最大.悬浮体的黏度随固相含量的增加而增热,当固相含量小于60%时YAG悬浮体的黏度基本上不随剪切速率的变化而变化,为近牛顿流体,当固相含量大于60%时YAG悬浮体的黏度隧剪切速率的增加而减小,为剪切銮稀型流体.用pH=11.5,聚丙烯酸浓度为2%,固相含量为60%的YAG浆料注浆可以得到均匀性好,有机物成分单一且含量低的生坯.
参考文献
| [1] | KINSMAN KM;MCKITTRICK J .Phase development and luminescence in chromium-doped yttrium aluminum garnet(YAG:Gr)phosphor[J].Journal of the American Ceramic Society,1994,77(11):2866. |
| [2] | GEUSICJE;MARCOS HM;VAN UITERT LG .Laser oscillation in Nd-doped yttrium aluminum,yttrium gallumi,and gadolinium garnet[J].Applied Physics Letters,1964,4(11):182. |
| [3] | CHOKSHI AH;PORTER JR .Analtsis of concurrent grain growth during creep of polycrytalline alumina[J].Journal of the American Ceramic Society,1986,69(02):C37. |
| [4] | CARNELL E;HATCH SH;PARSON WF.Materials Science Research[J].Plenum Press,1966:165. |
| [5] | GRESKOVICH C;CHERNOCH JP .Polycrystalline ceramic laser[J].Journal of Applied Physics,1973,44(10):4599. |
| [6] | Lu J.;Song J.;Li C.;Xu J.;Ueda K.;Kaminskii AA.;Yagi H. Yanagitani T.;Prabhu M. .Optical properties and highly efficient laser oscillation of Nd : YAG ceramics[J].Applied physics, B. Lasers and optics,2000(4):469-473. |
| [7] | LI J;WU YS;PAN YB et al.Densification and microstructure evolution of Cr4+,Nd3+:YAG transparent ceramics for self-Q-switched laser[J].Ceramics International,2008,34:1675. |
| [8] | Tao Feng;JianLin Shi;Danyu Jiang .Preparation of transparent Ce:YSAG ceramic and its optical properties[J].Journal of the European Ceramic Society,2008(13):2539-2543. |
| [9] | Vaidhyanathan B;Binner JGP .Microwave assisted synthesis of nanocrystalline YAG[J].Journal of Materials Science,2006(18):5954-5957. |
| [10] | Even-Zur, OT;Chaim, R .Effect of green density and electric field direction on densification of YAG nano-powders by spark plasma sintering[J].Journal of Materials Science,2009(8):2063-2068. |
| [11] | NAITO M;FUKUDA Y;YOSHIKAWA N et al.Optimization of suspension characteristics for shaping processes[J].Journal of the European Ceramic Society,1997,17:251. |
| [12] | LANGE FF .Powder processing science and technology for increse reliability[J].Journal of the American Ceramic Society,1989,72:3. |
| [13] | LU J;UEDA K;YAGI H et al.Neodymium doped yttrium aluminum garnet(Y3Al5O12) nanocrystalline ceramics-a new generation of solid state laser and optical materials[J].Journal of Alloys and Compounds,2002,341:220. |
| [14] | YAGI H;YANAGITANI T;UEDA K .Nd3+:Y3Al5O12 laser ceramics:Flash-lamp pumped laser operation with a UV cut filter[J].Journal of Alloys and Compounds,2006,421:197. |
| [15] | Kwadwo A. Appiagyei;Gary L. Messing;John Q. Dumm .Aqueous slip casting of transparent yttrium aluminum garnet (YAG) ceramics[J].Ceramics International,2008(5):1309-1313. |
| [16] | KOPYLOVYL;KRAVCHENKO VB;SHEMET VV et al.Development of Nd3+:Y3Al5O12 laser ceramics by high-prsessure colloidal slip-casting (HPCSC) method[J].Optical Materials,2009,31:707. |
| [17] | SCHINDLER PW.Surface complexes at oxide-water interface[M].Ann Arbor Science Publishers,Ann Arbor,MI,1981 |
| [18] | HOUIVET D;FALLAH JE;HAUSSONNE JM .Dispersion and grinding of oxide powders into an aqueous slurry[J].Journal of the American Ceramic Society,2002,85:321. |
| [19] | LV XH;LIU H;SANG YH et al.Electrokinetic properties of Nd:YAG nanopowder and a high concentration slurry with ammonium poly(acrylic acid)[J].Journal of Materials Science,2010,45:706. |
| [20] | Chibowski S.;Wisniewska M. .Study of electrokinetic properties and structure of adsorbed layers of polyacrylic acid and polyacrylamide at Fe2O3-polymer solution interface[J].Colloids and Surfaces, A. Physicochemical and Engineering Aspects,2002(1/3):131-145. |
| [21] | CHIBOWSKI S;WISNIEWSKA M .Application of the SAXS method and viscometry for determination of the thickness of adsorbed polymer layers at the ZrO2-polymer solution interface[J].Adsorption Science and Technology,1999,17:845. |
| [22] | SC LIUFU;HN X1AO;YP LI .Adsorption of poly(acrylie acid) onto the surface of titanium dioxide and the colloidal stability of aqueous suspension[J].Journal of Colloid and Interface Science,2005,281:155. |
| [23] | 沈一丁;李小瑞.陶瓷添加剂[M].北京:化学工业出版社,2004 |
| [24] | MCMURRY J.Fundamentals of Organic Chemistry[M].Brooks/Cole Publishing,Pacific G rove,CA,1994:291. |
| [25] | PAIK U;HACKLEY VA;LEE HW .Dispersant-binder interactions in aquous silicon nitride suspensions[J].Journal of the American Ceramic Society,1999,82(04):833. |
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