Litcius/Paper detail

Impact of grain boundary energy anisotropy on grain growth

S. Kiana Naghibzadeh, Zipeng Xu, David Kinderlehrer, Robert M. Suter, Kaushik Dayal, Gregory S. Rohrer

2024Physical Review Materials11 citationsDOIOpen Access PDF

Abstract

Recent observations of microstructure evolution during annealing revealed that grain growth not only reduces grain boundary area but also dissipates additional energy through a decrease in average grain boundary energy---a feature that isotropic simulations with uniform energy assumption fail to predict. The authors use a threshold dynamics model incorporating anisotropic grain boundary energies to simulate the observed grain growth of polycrystalline Ni. The model predicts an increase in the relative area of low-energy twin boundaries and a decrease in average boundary energy. This study highlights that realistic simulation of grain growth in polycrystals requires anisotropic grain boundary energy implementation.

Topics & Concepts

Materials scienceGrain boundaryGrain growthGrain boundary strengtheningAnisotropyGrain boundary diffusion coefficientCrystalliteIsotropyCondensed matter physicsPopulationEnergy (signal processing)Grain sizeMetallurgyPhysicsMicrostructureMathematicsStatisticsOpticsSociologyDemographyMicrostructure and mechanical propertiesMetallurgy and Material FormingMicrostructure and Mechanical Properties of Steels