Oxygen diffusion in Gd-doped mixed oxides

Abstract: Molecular dynamics simulations have been performed to investigate oxygen transport in (U x Pu x−1) 0.95 Gd 0.05 O 1.975 , (U x Th x−1) 0.95 Gd 0.05 O 1.975 and (Pu x Th x−1) 0.95 Gd 0.05 O 1.975 between 1000-3200 K. Oxygen diffusivity and corresponding activation energies are examined and compared to values for the undoped (U x Pu x−1)O 2 , (U x Th x−1)O 2 and (Pu x Th x−1)O 2 systems where compositions between end members display enhanced diffusivity. Below the superionic transition oxygen diffusivity for the… Show more

“…gadolinium, which is a common UO 2 dopant, acting as a burnable poison to control the reactivity of fuels in boiling water reactors [37][38][39][40][41]. Gd 2 O 3 -doped UO 2 has recently been investigated computationally and found to significantly increase the oxygen diffusivity of bulk UO 2 [42]; furthermore, Th-doped UO 2 has also been studied and found to have higher diffusivity [43]. The most common defects are fission products, which are produced during the burning of UO 2 .…”

Defect segregation facilitates oxygen transport at fluorite UO ₂ grain boundaries

“…gadolinium, which is a common UO 2 dopant, acting as a burnable poison to control the reactivity of fuels in boiling water reactors [37][38][39][40][41]. Gd 2 O 3 -doped UO 2 has recently been investigated computationally and found to significantly increase the oxygen diffusivity of bulk UO 2 [42]; furthermore, Th-doped UO 2 has also been studied and found to have higher diffusivity [43]. The most common defects are fission products, which are produced during the burning of UO 2 .…”

Defect segregation facilitates oxygen transport at fluorite UO ₂ grain boundaries

Oxidation studies of (U1−yGdy)O2.00; (y ≤ 0.2) under different oxygen partial pressures by thermogravimetry and in situ X-ray diffraction

Fundamental Point Defect Properties in Ceramics