Precipitation mechanism and microstructural evolution of Al₂O₃/ZrO₂（CeO₂） solid solution powders consolidated by spark plasma sintering

Wanjun Yu，Yongting Zheng，Yongdong Yu

National Key Laboratory of Science and Technology on Advanced Composites in Special Environments and Center for Composite Materials and Structures,Harbin Institute of Technology

摘 要：It is difficult to synthesize Al₂O₃/ZrO₂ solid solution because of its low solubility under equilibrium solidification conditions. In this work, a new combustion synthesis combined with water atomization（CS-WA）method was developed to prepare supersaturated Al₂O₃/ZrO₂（CeO₂） solid solution powders. The ultrahigh cooling rate supplied by CS-WA greatly extends solid solubility of Al₂O₃ in ZrO₂. The precipitation mechanism of solid solution was investigated by systematic heat treatments. The initial temperature of the metastable phase decomposed into Al₂O₃ and ZrO₂ is 1050℃, and it could be completely precipitated at 1400℃ in 0.5 h. The precipitated ZrO₂ particles were uniformly dispersed in Al₂O₃ matrix and grew into submicron scale at annealing temperature of 1450℃. Subsequently, together with detailed microstructure, phase composition, as well as mechanical properties were collaboratively outlined to discuss spark plasma sintering（SPS） behavior. The solid solution precipitated Al₂O₃ matrix and ZrO₂ particles during the SPS process. Partial ZrO₂ particles were uniformly distributed within Al₂O₃ matrix, while the residuary ZrO₂ located at the grain boundaries and formed special transgranular/intergranular structure. The average size of nanoscale transgranular ZrO₂ particles was only ～11.5 nm. The compact ZrO₂ toughened Al₂O₃ nano ceramic（N-ZTA） exhibits excellent mechanical properties. This work provides a guidance to produce nanostructured ZTA with high performance.

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