ELECTRON-DIFFRACTION AND MICROSCOPE STUDIES OF ZIRCONIUM-OXIDES STABILIZED BY SEVERAL METAL-OXIDES

Crystal structures of CaO-stabilized zirconium oxide (CSZ) and Tb4O7-s tabilized zirconium oxide (TSZ) were investigated by electron diffract ion and electron microscopy. Superlattice spots were observed at the B ragg-reflection positions with even-odd mixed indices of the fluorite- type lattice for CSZ containing 10 mol% CaO and TSZ containing 10 mol% Tb2O3.5. Circular diffuse intensity contours were found for CSZ conta ining 19 mol% CaO and TSZ containing 40 mol% Tb2O3.5. The diffuse cont ours, which were studied in detail, were ascribed to a circular split of the 1/2 1/2 1/2 superlattice reflection into the plane bisecting pe rpendicularly the 111 reciprocal-lattice lattice vector G111 of the fl uorite structure. The diameter D of the diffuse circles was approximat ely 0.24\G112BAR\ for CSZ and approximately 0.12\G112BAR\ for TSZ. The values of D/\G112BAR\ for CSZ and TSZ, together with that (approximat ely 0.18) for Y2O3-stabilized zirconium oxide (YSZ), showed a monotoni c increase against the local strain defined by \r(H)-r(G)\/r(H) (r(H) and r(G) are the ionic radii for the host and guest cations, respectiv ely). The origin of circular diffuse contours was attributed to the an tiphase domains of an ordered structure, whose boundaries are various planes belonging to the [111] zone axis, and the mean domain-size is s trongly correlated with the local strain. The [110BAR] high-resolution electron-microscope images of TSZ revealed the presence of antiphase microdomains, whose size agrees well with the inverse of the diameter of the diffuse circles.