Influence of Y2O3 Addition on the Transformation Behavior of ZrO2 in Al2O3-ZrO2 Composites

ARAHORI Tadahisa, IWAMOTO Nobuya, UMESAKI Norimasa

doi:10.2109/jcersj1950.95.1106_949

The effect of Y₂O₃ content on the stress-induced transformation of ZrO₂ in sintered Al₂O₃-ZrO₂ (Y₂O₂: 0-3mol%) composites was studied by using laser Raman spectroscopy and X-ray diffraction method, and their mechanical properties, such as Young's modulus, bending strength, Vickers hardness and fracture toughness, were measured. The tetragonal phase of ZrO₂ was 54mol% in the Y₂O₃-free composite, and increased with increasing Y₂O₃ content. From SEM observation, the particle size of ZrO₂ in the composites was from 0.9 to 1.2μm. The Raman measurement of ZrO₂ phases on the fracture and tensile surfaces after bending test indicated that the stress-induced transformation proceeded more extensively in the composites with low Y₂O₃ contents and near the fracture surfaces. Consequently, fracture toughness increased with decreasing Y₂O₃ content, and this tendency was related to the stress-induced transformation and the presence of microcracking. On the other hand, bending strength, Vickers hardness and Young's modulus decreased with decreasing Y₂O₃ content due to microcracking in Al₂O₃-ZrO₂ composites. The results obtained lead to the conclusion that the stress-induced transformation behavior is explained by the constraint of ZrO₂ particles in the matrix of Al₂O₃, and is influenced by the stabilization of tetragonal ZrO₂ by Y₂O₃.

Influence of Y<sub>2</sub>O<sub>3</sub> Addition on the Transformation Behavior of ZrO<sub>2</sub> in Al<sub>2</sub>O<sub>3</sub>-ZrO<sub>2</sub> Composites

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