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Phase-field simulation of radiation-induced bubble evolution in recrystallized U–Mo alloy

Yanbo Jiang, Yong Xin, Wenbo Liu, Zhipeng Sun, Ping Chen, Dan Sun, Mingyang Zhou, Xiao Liu, Di Yun

2021Nuclear Engineering and Technology17 citationsDOIOpen Access PDF

Abstract

In the present work, a phase-field model was developed to investigate the influence of recrystallization on bubble evolution during irradiation. Considering the interaction between bubbles and grain boundary (GB), a set of modified Cahn-Hilliard and Allen-Cahn equations, with field variables and order parameters evolving in space and time, was used in this model. Both the kinetics of recrystallization characterized in experiments and point defects generated during cascade were incorporated in the model. The bubble evolution in recrystallized polycrystalline of U–Mo alloy was also investigated. The simulation results showed that GB with a large area fraction generated by recrystallization accelerates the formation and growth of bubbles. With the formation of new grains, gas atoms are swept and collected by GBs. The simulation results of bubble size and distribution are consistent with the experimental results.

Topics & Concepts

Recrystallization (geology)BubbleMaterials scienceAlloyCrystalliteMetallurgyCascadeThermodynamicsDynamic recrystallizationMechanicsCrystallographyChemical engineeringHot workingChemistryPhysicsEngineeringBiologyPaleontologyNuclear Materials and PropertiesFusion materials and technologiesSolidification and crystal growth phenomena