本文测量了YAG粉体的ξ电位,通过调节pH值获得均匀分散的YAG水悬浮液.采用非均相沉淀方法获得YAG分布均匀的Al2O3-YAG复合粉体.通过热压烧结得到致密烧结体,YAG的加入对烧结温度的影响不大.Al2O3-5vol%YAG复相陶瓷的抗弯强度为485MPa,断裂韧性为4.2MPa·m1/2,均高于单相Al2O3陶瓷,数据的重复性好于球磨混合所制备的样品.通过TEM观察,YAG颗粒均匀分布于整个样品中,表明通过非均相沉淀制粉可以获得YAG颗粒分布均匀的Al2O3-YAG复相陶瓷.
Zeta potential of YAG powder was measured, and well-dispersed YAG aqueous suspension could be obtained through regulating pH value. Al2O3-YAG
composite powder containing uniformly distributed YAG was prepared by using the heterogeneous precipitation method. Sintered bodies were gotten by hot-pressing,
and addition of YAG influenced little on sintering temperature. Bending strength and fracture toughness of Al2O3-5vol%YAG composite were 485MPa and
4.2MPa·m1/2 respectively. Both were higher than those of monolithic Al2O3 ceramics, and the reliability of values was also better than that of
Al2O3 ceramics. Through TEM observation, it could be seen that YAG particles were uniformly distributed throughout materials. It indicated that Al2O3-YAG
composite with good YAG dispersion could be obtained by using the heterogeneous precipitation method.
参考文献
[1] | Parthasarathy T A, Mah T, Keller K. J. Am. Ceram. Soc., 1992, 75 (7): 1756--1759. [2] Corman G S. Ceram. Eng. Sci. Proc., 1991, 12 (9): 1745--1766. [3] Matson L E, Hay R S, Mah T. Ceram. Eng. Sci. Proc., 1990, 11 (7): 995--1003. [4] Wang H Z, Gao L, Gui L H, Guo J K. NanoStructured Materials. 1998, 10 (6): 947--953 . [5] 王 宏 志, 高濂, 归 林 华等(WANG Hong-Zhi, et al). 无 机 材 料 学 报(Journal of Inorganic Materials), 1997, 12 (5): 671--674. [6] Niihara K. J. Ceram. Soc. Jpn., 1991, 99 (10): 974--982. [7] 张 国 军, 金 宗 哲. 硅 酸 盐 学 报,1994, 22 (3): 259--269. |
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