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Anomalous strain-energy-driven macroscale translation of grains during nonisothermal annealing

M. J. Higgins, Ji‐Hwan Kang, Guanglong Huang, David Montiel, Ning Lu, H. Liu, Y-F. Shen, Philip Staublin, J.-S. Park, Jonathan Almer, Péter Kenesei, Paul G. Sanders, Robert M. Suter, Katsuyo Thornton, Ashwin J. Shahani

2021Physical Review Materials10 citationsDOIOpen Access PDF

Abstract

We report a mode of grain growth, involving the macroscopic translation of grain centers during nonisothermal annealing. Through synchrotron high-energy x-ray diffraction microscopy, we find dissolution of semicoherent precipitates generates dislocations, thereby raising the stored strain energy within grains. The subsequent evolution of grains shows unexpected grain translations over length scales of 10--100 \ensuremath{\mu}m. Phase-field simulations reveal that such translations are not uncommon in strain-energy-driven grain growth, wherein different regions of a grain may grow and shrink simultaneously.

Topics & Concepts

Materials scienceAnnealing (glass)SynchrotronGrain growthDiffractionCrystallographyStrain energyGrain sizeGrain boundaryElastic energyCondensed matter physicsMetallurgyMicrostructureThermodynamicsOpticsPhysicsChemistryFinite element methodSolidification and crystal growth phenomenaMicrostructure and mechanical propertiesnanoparticles nucleation surface interactions
Anomalous strain-energy-driven macroscale translation of grains during nonisothermal annealing | Litcius