Effect of waste-derived MA spinel on sintering and stabilization behavior of partially stabilized double phase zirconia |
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| Authors: | Ahmed A. M. El-Amir Mahmoud Abdelgawad Shufeng Li Emad M. M. Ewais Safaa M. A. El-Gamal |
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| Affiliation: | 1. Refractories and Ceramic Materials Department, Central Metallurgical Research and Development Institute, Cairo, Egypt;2. School of Materials Science and Engineering, Xian University of Technology, Xian, China;3. Faculty of Science, Ain Shams University, Cairo, Egypt |
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| Abstract: | Cubic-stabilized zirconia ceramic composites have been synthesized by conventional sintering, starting from commercial m-ZrO2, Y2O3, and waste-derived magnesium aluminate spinel (MA) powders. In this work, the effect of sintering temperature and MA content on stabilization and densification properties of YSZ have been duly considered. MA-free YSZ0 composite sintered at 1600°C-1700°C revealed m- and t-ZrO2 dual-phase structure where its m-ZrO2 was partially stabilized upon temperature rising into tetragonal phase by Y3+ diffusion inside zirconia structure. YSZ10-50 composites containing 10-50 wt% MA demonstrated dissimilar behavior where their m-ZrO2 was transformed and stabilized into a cubic form by diffusion of Y3+, Mg+2, and Al+3 inside zirconia lattice. Furthermore, densification of YSZ10-50 powder mixtures by conventional sintering at 1600°C for 2 hours resulted in fully dense compacts with micrometer-sized grains. The outcomes indicate that MA has a significant effect on m-ZrO2 stabilization into the cubic phase structure at room temperature. In this respect, this study offers huge potentials for developing fully stabilized c-ZrO2 ceramics that could be possibly used as industrial ceramics for structural applications of harsh chemical and thermal environmental conditions. |
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| Keywords: | MA-yttria-dual stabilized zirconia oxygen conductors pressureless conventional sintering |
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