Impact of alpha-damage and helium production on the heat capacity of actinide oxides

Impact of alpha-damage and helium production on the heat capacity of actinide oxides

The heat capacity of alpha-damaged uranium, plutonium, and americium mixed dioxide (Uu, Puv, Amw)O2±x samples was measured during thermal annealing. The excess of heat released was assessed and the recovery stages associated with various defects described by integrating results from transmission ele...

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Main Authors: Thierry Wiss, Rudy J. M. Konings, Dragos Staicu, Alessandro Benedetti, Jean-Yves Colle, Vincenzo V. Rondinella, Emilio Maugeri, Zeynep Talip, Arne Janssen, Oliver Dieste, Luana Cognini, Emanuele De Bona, Gianguido Baldinozzi, Christine Guéneau
Format: Article
Language:English
Published: Frontiers Media S.A. 2025-02-01
Series:Frontiers in Nuclear Engineering
Subjects:
heat capacity
alpha-damage
actinide dioxide
stored energy
defects
helium
Online Access:https://www.frontiersin.org/articles/10.3389/fnuen.2025.1495360/full
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Summary:The heat capacity of alpha-damaged uranium, plutonium, and americium mixed dioxide (Uu, Puv, Amw)O2±x samples was measured during thermal annealing. The excess of heat released was assessed and the recovery stages associated with various defects described by integrating results from transmission electron microscopy, helium desorption spectroscopy, thermal diffusivity, and XRD annealing studies. It is shown that different defect-annealing stages could be singled out. It could also be evidenced that the excess of energy stored in defects tends to saturate after rather low damage levels, but that, with increasing radiogenic helium production, another contribution of stored energy appears which can be attributed to the formation of He-defect complexes that cannot be annihilated until higher temperatures are reached.
ISSN:2813-3412

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