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Grain Boundary Solute Drag Model in Regular Solution Alloys

Malek Alkayyali, Fadi Abdeljawad

2021Physical Review Letters29 citationsDOI

Abstract

We present a grain boundary (GB) solute drag model in regular solution alloys. The model accounts for solute-solute interactions in both the bulk and GBs and captures effects such as monolayer, multilayer, and asymmetrical segregation. Our analysis shows that deviations from ideal solution thermodynamics play a paramount role, in which solute drag is shown to scale with solute-solute interaction parameters. Further, it is found that the asymmetry in GB segregation introduces an additional component to solute drag. A universal solute drag-GB velocity relation is proposed and used to explain recent experimental observations of sluggish grain growth in a wide range of engineering alloys.

Topics & Concepts

DragSolvent dragAsymmetryThermodynamicsMaterials scienceGrain boundaryMonolayerDrag coefficientMechanicsStatistical physicsPhysicsNanotechnologyMicrostructureComposite materialQuantum mechanicsMicrostructure and mechanical propertiesnanoparticles nucleation surface interactionsAdvanced Materials Characterization Techniques
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