Effects of CeO2 on the phase, microstructure and mechanical properties of Al2O3-ZrO2(CeO2) nanocomposite ceramics (AZC-NCs) by solid solution precipitation

It is one of the most concerning issues to achieve fine nanostructures and a reasonable ZrO2 crystal structure in Al2O3-ZrO2 structural ceramics. Herein, Al2O3-ZrO2(CeO2) nanocomposite ceramics (AZC-NCs) with different CeO2 contents were prepared by sintering Al2O3-ZrO2(CeO2) supersaturated solid solution powders (AZC-SSSPs). The effects of CeO2 on the phase, microstructure, and mechanical properties of AZC-NCs were investigated systematically. During rapid solidification process, three phases of Al2O3, ZrO2 and CeO2 are dissolved together and form AZC-SSSPs with regular spheres. After sintering, the AZC-SSSPs transform into two-phase structure and compact into AZC-NCs. The AZC-NCs show an intragranular/intercrystalline nanoprecipitation structure, and large amounts of ZrO2 in AZC-NCs remain in a tetragonal structure at room temperature because of the addition of CeO2. Among the AZC-NCs, that with 6 mol% CeO2 shows the best mechanical properties with the highest values of strength and toughness: 865 +/- 24 MPa and 8.4 +/- 0.16 MPa.m(1/2) . Spark plasma sintering has no obvious influence on the microstructure and phase composition of AZC-NCs. This work provides guidance to optimize the microstructure and ZrO2 crystal structure of AZC-NCs.

Automated summary

This study prepared Al2O3-ZrO2(CeO2) nanocomposite ceramics by sintering Al2O3-ZrO2(CeO2) supersaturated solid solution powders and investigated the effects of CeO2 on their phase, microstructure, and mechanical properties. The optimum CeO2 content was found to be 6 mol% for achieving the highest strength and toughness.