DETERMINATION OF THE STRUCTURE OF THE CUBIC PHASE IN HIGH-ZRO2Y2O3-ZRO2 ALLOYS BY CONVERGENT-BEAM ELECTRON-DIFFRACTION

Authors
MCCLELLAN KJ XIAO SQ LAGERLOF KPD HEUER AH
Citation
Kj. Mcclellan et al., DETERMINATION OF THE STRUCTURE OF THE CUBIC PHASE IN HIGH-ZRO2Y2O3-ZRO2 ALLOYS BY CONVERGENT-BEAM ELECTRON-DIFFRACTION, Philosophical magazine. A. Physics of condensed matter. Defects and mechanical properties, 70(1), 1994, pp. 185-200
Citations number
23
Categorie Soggetti
Physics, Applied
Journal title
Philosophical magazine. A. Physics of condensed matter. Defects and mechanical propertiesACNP
ISSN journal
01418610
Volume
70
Issue
1
Year of publication
1994
Pages
185 - 200
Database
ISI
SICI code
0141-8610(1994)70:1<185:DOTSOT>2.0.ZU;2-J
Abstract
Convergent-beam electron diffraction (CBED) was used to determine the space group of 9.9 and 18 mol.% Y2O3-stabilized cubic ZrO2 single crys tals. The result (space group, P43mBAR) is different from the known te tragonal structure (space group, P4(2)/nmc) present in lower solute (3 .2 mol.% Y2O3) alloys, and the cubic structure (space group, Fm3mBAR) traditionally assumed for cubic ZrO2. The oxygen sublattice of the cub ic structure is distorted from Fm3mBAR, relative to the cation sublatt ice, by displacements along the [111] directions. Computer simulations of the CBED patterns agree with experiment and suggest an anion displ acement of about 0.3 angstrom from the {1/4,1/4.1/4} positions of the ideal fluorite structure.