Influence of in situ phase formation on properties of calcium zirconate refractories

This study investigates chemical, physical, mechanical, and thermomechanical properties of calcium zirconate (CaZrO3) refractories. The applied fused raw material contained some residual cubic zirconia, which impairs the corrosion resistance of CaZrO3 refractories. To adjust the stoichiometry, CaCO3...

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Bibliographic Details
Published in:Journal of the European Ceramic Society 2017-01, Vol.37 (1), p.305-313
Main Authors: Schafföner, Stefan, Fruhstorfer, Jens, Faßauer, Christina, Freitag, Lisa, Jahn, Constantin, Aneziris, Christos G.
Format: Article
Language:English
Subjects:
Calcium zirconate
Elastic properties
Refractories
Thermal expansion coefficient
Thermal shock resistance
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Summary:This study investigates chemical, physical, mechanical, and thermomechanical properties of calcium zirconate (CaZrO3) refractories. The applied fused raw material contained some residual cubic zirconia, which impairs the corrosion resistance of CaZrO3 refractories. To adjust the stoichiometry, CaCO3 was added. Furthermore, stoichiometric amounts of CaCO3/monoclinic ZrO2 were added to promote an in situ pore formation without altering the phase composition. After firing cubic zirconia was only found in the coarse grained aggregates. CaCO3 additions increased the apparent porosity and reduced the thermal expansion coefficient due to the stoichiometric adjustment. Surprisingly, a higher porosity did not result in an improved thermal shock resistance, which can be attributed to a shift to larger pore sizes. This might cause a lower crack density, which is usually associated with a reduced thermal shock resistance. Future work will address the formation of smaller pores and the evaluation of the thermal shock resistance under practical conditions.
ISSN:0955-2219
1873-619X
DOI:10.1016/j.jeurceramsoc.2016.08.017