Experiments showed that recrystallization dramatically speeds up the gas bubble swelling kinetics in metallic UMo fuels. In this work a recrystallization model is developed to study the effect of microstructures and radiation conditions on recrystallization kinetics. The model integrates the rate theory of intra-granular gas bubble and interstitial loop evolution and a phase field model of recrystallization zone evolution. A fast passage method is employed to describe one dimensional diffusion of interstitials which have diffusivity several order magnitude larger than that of the fission gas Xe. With the model, the effect of grain sizes on recrystallization kinetics is simulated.
Revised: February 27, 2020 |
Published: December 1, 2017
Citation
Hu S., V.V. Joshi, and C.A. Lavender. 2017.A Rate-Theory–Phase-Field Model of Irradiation-Induced Recrystallization in UMo Nuclear Fuels.JOM. The Journal of the Minerals, Metals and Materials Society 69, no. 12:2554–2562.PNNL-SA-125571.doi:10.1007/s11837-017-2611-4