Litcius/Paper detail

Stabilization of phase‐pure tetragonal zirconia ceramics with minimum CeO <sub>2</sub> doping and associated benefits

Annu Kumar Lakshya, Keshav Kumar Jha, Anirban Chowdhury

2024Journal of the American Ceramic Society16 citationsDOIOpen Access PDF

Abstract

Abstract In the quest of finding the minimum ceria doping for a stabilized zirconia matrix, we report a remarkable structure–property correlation for a high (&gt; 99%) density, fine grained (∼100 nm), fully phase‐pure (confirmed via both slow scan X‐ray diffraction and Raman spectroscopy) tetragonal 10 mol.% CeO 2 ‐doped zirconia ceramics (10Ce‐TZP). A starting near spherical, ultrafine (∼7 nm) powders with high surface area (∼170 m 2 /g) ensured the conventional pressureless sintering at 1150°C without the need of any additives, binders, and/or sintering aid to achieve this high density. No monoclinic phase was traced at the end of the low‐temperature degradation test for 100 h in boiling water; negligible (∼5% monoclinic phase) amounts showed up in the thermal quenching tests. The sintered 10Ce‐TZP ceramic recorded comparable/better hardness and indentation toughness value with respect to higher (i.e., 12 mol.%) ceria doped‐zirconia systems. For the first time, nanograined translucent 10Ce‐TZP ceramic portrayed a remarkable transmittance of ∼38% at 600 nm wavelength for 0.6 mm thick pellet.

Topics & Concepts

Materials scienceCubic zirconiaTetragonal crystal systemMonoclinic crystal systemSinteringCeramicRaman spectroscopyDopingComposite materialPhase (matter)Transparent ceramicsMineralogyAnalytical Chemistry (journal)Chemical engineeringCrystallographyOpticsCrystal structureOptoelectronicsChemistryPhysicsChromatographyOrganic chemistryEngineeringAdvanced ceramic materials synthesisAdvanced materials and compositesNuclear materials and radiation effects