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Structural and Phase Evolution in U3si2 During Steam Corrosion

16 Pages Posted: 21 Mar 2022

See all articles by Jiatu Liu

Jiatu Liu

affiliation not provided to SSRN

Patrick A. Burr

University of New South Wales (UNSW) - School of Mechanical and Manufacturing Engineering

Joshua T. White

Government of the United States of America - Los Alamos National Laboratory

Vanessa K. Peterson

Government of the Commonwealth of Australia - Australian Nuclear Science and Technology Organisation

Pranesh Dayal

Australian Nuclear Science and Technology Organisation

Christopher Baldwin

Government of the Commonwealth of Australia - Australian Nuclear Science and Technology Organisation

Deborah Wakeham

affiliation not provided to SSRN

Daniel J. Gregg

Australian Nuclear Science and Technology Organisation

Elizabeth S. Sooby

affiliation not provided to SSRN

Edward G. Obbard

University of New South Wales (UNSW) - School of Mechanical and Manufacturing Engineering

Abstract

U3Si2 nuclear fuel is corroded in deuterated steam with in situ neutron diffraction. Density functional theory is coupled with rigorous thermodynamic description of the hydride including gas/solid entropy contributions. H absorbs in the 2b interstitial site of U3Si2Hx and moves to 8j for x ≥ 0.5. Hydriding forces lattice expansion and change in a/c ratio linked to site preference. Rietveld refinement tracks the corrosion reactions at 350-500 °C and preference for the 8j site. Above 375 °C, formation of UO2, U3Si5 and USi3 take place in the grain boundaries and bulk. Hydriding occurs in bulk and precedes other reactions.

Keywords: Intermetallics, modelling studies, effects of strain, hydrogen absorption, oxidation, reactor conditions

Suggested Citation

Liu, Jiatu and Burr, Patrick A. and White, Joshua T. and Peterson, Vanessa K. and Dayal, Pranesh and Baldwin, Christopher and Wakeham, Deborah and Gregg, Daniel J. and Sooby, Elizabeth S. and Obbard, Edward G., Structural and Phase Evolution in U3si2 During Steam Corrosion. Available at SSRN: https://ssrn.com/abstract=4050274 or http://dx.doi.org/10.2139/ssrn.4050274

Jiatu Liu

affiliation not provided to SSRN ( email )

No Address Available

Patrick A. Burr

University of New South Wales (UNSW) - School of Mechanical and Manufacturing Engineering ( email )

NSW 2052
Australia

Joshua T. White

Government of the United States of America - Los Alamos National Laboratory ( email )

Los Alamos, NM 87545
United States

Vanessa K. Peterson

Government of the Commonwealth of Australia - Australian Nuclear Science and Technology Organisation ( email )

Pranesh Dayal

Australian Nuclear Science and Technology Organisation ( email )

Locked Bag 2001
Kirrawee DC
Sydney, New South Wales NSW 2232
Australia

Christopher Baldwin

Government of the Commonwealth of Australia - Australian Nuclear Science and Technology Organisation ( email )

Deborah Wakeham

affiliation not provided to SSRN ( email )

No Address Available

Daniel J. Gregg

Australian Nuclear Science and Technology Organisation ( email )

Locked Bag 2001
Kirrawee DC
Sydney, New South Wales NSW 2232
Australia

Elizabeth S. Sooby

affiliation not provided to SSRN ( email )

No Address Available

Edward G. Obbard (Contact Author)

University of New South Wales (UNSW) - School of Mechanical and Manufacturing Engineering ( email )

NSW 2052
Australia

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