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Communication Dans Un Congrès Année : 2012

Nature and Behaviour of Point Defects in UO2 Based on an Experimental and Theoretical Study of Electrical and Atomic Transport Properties

Résumé

Thermally or radiation induced transport properties impact practically all engineering aspects of nuclear oxide fuels, whether at the manufacturing stage, during in-reactor operation, or under long-term repository conditions. From a more fundamental standpoint, measuring transport properties is also a means of probing point or complex defects that are responsible for atomic migration. Although many studies relating to self-diffusion in UO2 have been carried out over the past forty years, these have not generally focussed on characterising these properties as a function of all the physical variables which determine it, i.e. temperature, the oxygen partial pressure and the impurity content, usually present in the form of bi- or tri-valent action impurities. In this talk, we show how electrical conductivity and self-diffusion property measurements may be combined in order to determine fundamental data relating to the nature of defects responsible for the property and their formation or migration energies. These data may then be compared to those obtained from first principles electronic structure calculations. The first part of the talk is dedicated to the development of a point defect model which captures the basic dependence of the electrical conductivity of UO2 upon temperature and oxygen partial pressure. The formation energies derived from this exercise are then compared to charged defect calculations using Density Functional Theory in the LDA+U approximation. The second part is concerned with oxygen self-diffusion and chemical diffusion coefficient measurements. We show that the point defect model is also compatible with the experimental data available. In the third part of the talk we examine uranium self-diffusion properties. The point defect model is specifically developed to account for uranium defects in a composition range close to stoichiometry. An analytical apparent activation energy is derived in this composition region and a numerical application is carried out based on basic formation and migration energy estimates obtained from first principles. The results compare favourably to existing data but highlight the need for additional experimental and theoretical work.
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hal-00761368 , version 1 (05-12-2012)

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  • HAL Id : hal-00761368 , version 1

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Philippe Garcia, Elizabetta Pizzi, David Simeone, Gianguido Baldinozzi, David A. Andersson, et al.. Nature and Behaviour of Point Defects in UO2 Based on an Experimental and Theoretical Study of Electrical and Atomic Transport Properties. Symposium HH – Advances in Materials for Nuclear Energy, Nov 2012, Boston, United States. ⟨hal-00761368⟩
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