Thermal expansion and steam oxidation of uranium mononitride analysed via in situ neutron diffraction

Liu, Jiatu; Gasparrini, Claudia; White, Joshua T; Johnson, Kyle; Lopes, Denise Adorno; Peterson, Vanessa K; Studer, Andrew; Griffiths, Grant J; Lumpkin, Gregory R; Wenman, Mark R; Burr, Patrick A; Sooby, Elizabeth S; Obbard, Edward G

Thermal expansion and steam oxidation of uranium mononitride analysed via in situ neutron diffraction

journal contribution

posted on 2024-11-17, 16:54 authored by Jiatu Liu, Claudia Gasparrini, Joshua T White, Kyle Johnson, Denise Adorno Lopes, Vanessa K Peterson, Andrew Studer, Grant J Griffiths, Gregory R Lumpkin, Mark R Wenman, Patrick A Burr, Elizabeth S Sooby, Edward G Obbard

In situ neutron powder diffraction experiments are applied to physical, kinetic, and microstructural characterization of uranium mononitride as a promising light water reactor fuel material. The temperature-variable coefficient of thermal expansion and isotropic Debye Waller factors are obtained by sequential Rietveld refinement over 499–1873 K. Oxidation of a UN pellet (95.2% density) under flow of 11 mg/min D2O is observed to initiate above 623 K and the rate increases by a factor of approximately 10 from 673 to 773 K, with activation energy 50.6 ± 1.3 kJ/mol; uranium oxide is the only solid corrosion product.

Funding

Australian Nuclear Science and Technology Organisation (EP/P005101/1)

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Journal title

Journal of Nuclear Materials

Volume

575

Publisher website/DOI

https://doi.org/10.1016/j.jnucmat.2022.154215

Language

English

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Thermal expansion and steam oxidation of uranium mononitride analysed via in situ neutron diffraction

Funding

Australian Nuclear Science and Technology Organisation (EP/P005101/1)

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