Nonstoichiometry in Uranium Dioxide
- 1 April 1966
- journal article
- research article
- Published by AIP Publishing in The Journal of Chemical Physics
- Vol. 44 (7), 2632-2643
- https://doi.org/10.1063/1.1727104
Abstract
An extension of Anderson's formulation of the defect theory of nonstoichiometry is used with an oxygen—interstitial oxygen‐vacancy model to calculate the composition of the uranium dioxide phase at the lower phase boundary and the relative partial molar thermodynamic functions for oxygen at compositions ranging from the lower phase boundary to UO2.08. The model is used as a basis on which to argue that differing experimental results near UO2.00 are more likely due to differing, nonequilibrium, concentrations of uranium vacancies than to failure to reach oxygen equilibrium. The present form of the model, with an interstitial site density of one per uranium site fails sharply at about UO2.08 rather than gradually as the oxygen content is increased from UO2.00. Discussion of the effects of alternate site densities is used to explain the observed values of the partial molar entropy of the oxygen in the range from UO2.02 to UO2.24.Keywords
This publication has 12 references indexed in Scilit:
- THE CRYSTAL DYNAMICS OF URANIUM DIOXIDECanadian Journal of Physics, 1965
- Neutron diffraction studies of the actinide oxides II. Thermal motions of the atoms in uranium dioxide and thorium dioxide between room temperature and 1100 °CProceedings of the Royal Society of London. Series A - Mathematical and Physical Sciences, 1963
- Positions of the Oxygen Atoms in UO2.13Nature, 1963
- High-Temperature Electrochemical Study of Uranium Oxides in the UO2-U3O8 Region.Acta Chemica Scandinavica, 1962
- Equilibrium pressures and phase relations in the uranium oxide systemJournal of Inorganic and Nuclear Chemistry, 1961
- Visible and Ultraviolet Absorption Properties of Uranium Dioxide Films*Journal of the Optical Society of America, 1959
- Nonstoichiometry in Uranium DioxideThe Journal of Chemical Physics, 1958
- Lattice Vibrational Spectrum of Imperfect CrystalsThe Journal of Chemical Physics, 1954
- FINE STRUCTURE OF THE SCHUMANN-RUNGE BANDS NEAR THE CONVERGENCE LIMIT AND THE DISSOCIATION ENERGY OF THE OXYGEN MOLECULECanadian Journal of Physics, 1954
- Equilibrium conditions of 'non-stoichiometric' chemical compoundsProceedings of the Royal Society of London. Series A - Mathematical and Physical Sciences, 1946