Ab initio structure determinations of high-performance radioactive waste forms
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Date
2005-11-27
Authors
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Journal ISSN
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Publisher
The Bragg Institute, Australian Nuclear Science and Technology Organisation
Abstract
Immobilisation of high-level radioactive wastes in stable matrices for long-term storage or geological disposal is a key step in closing the nuclear fuel cycle. Titanate minerals have shown much promise in their capacity to take up radioactive elements into their crystal structures at regular lattice sites in pyrochlore and brannerite phases. Previously unreported uranyl titanates BaUTiO6 and Na2U3Ti2O11 have been synthesised under argon at 1400 and 1250 deg. C, respectively and their structures determined by ab initio techniques using a combination of electron, synchrotron and neutron powder diffraction. BaUTiO6 crystallises with a carnotite-type structure (P21/c; a=6.4463(1) A, b=8.5999(1) A, c=10.2532(1) A; >=75.936(1)o and V=551.36(1) A3); while Na2U3Ti2O11 forms an orthorhombic structure (Pnma; a=31.0421(8) A, b=7.2774(2) A, c=7.6111(2) A and V=1719.4(1) A3). Due to their potential value as a radioactive waste forms, the leach rates of uranium, barium and sodium were determined. Normalised uranium leach rates from BaUTiO6 and Na2U3Ti2O11, averaged over 7 days were orders of magnitude less than those for brannerite and for U-containing pyrochlore waste forms. © The Authors
Description
Physical copy held by ANSTO Library at DDC 539.7217/2
Keywords
Actinide compounds, Alkaline earth metal compounds, Crystal lattices, Crystal structure, X-ray diffraction, Metals, Minerals, Oxygen compounds, Radioactive materials, Radioactive wastes, Scattering, Separation processes, Transition element compounds, Waste forms
Citation
Carter, M., Wallwork, K., James, M., & Withers, R. (2005). Ab initio structure determinations of high-performance radioactive waste forms. Paper presented at the Eighth International Conference on Neutron Scattering ICNS 2005: "Neutrons for structure and dynamics - a new era", Sydney Convention & Exhibition Centre, Sydney, Australia, 27 November-2 December 2005. In Final Programme and Abstract Book, (pp. 232).