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Nucleation of Grain Boundary Phases.

I S Winter, R E Rudd, T Oppelstrup, T Frolov

2022PubMed33 citationsDOI

Abstract

We derive a theory that describes homogeneous nucleation of grain boundary (GB) phases. Our analysis takes account of the energy resulting from the GB phase junction, the line defect separating two different GB structures, which is necessarily a dislocation as well as an elastic line force due to the jump in GB stresses. The theory provides analytic forms for the elastic interactions and the core energy of the GB phase junction that, along with the change in GB energy, determines the nucleation barrier. We apply the resulting nucleation model to simulations of GB phase transformations in tungsten. Our theory explains why under certain conditions GBs cannot spontaneously change their structure even to a lower energy state.

Topics & Concepts

NucleationGrain boundaryPhase (matter)DislocationJumpMaterials scienceWork (physics)Condensed matter physicsClassical nucleation theoryHomogeneousThermodynamicsElastic energyCore (optical fiber)Line (geometry)Boundary (topology)Energy (signal processing)Surface energyPhase boundaryElasticity (physics)Statistical physicsPhysicsPhase transitionBoundary value problemSupercoolingPotential energyStrain energyMicrostructure and mechanical propertiesSolidification and crystal growth phenomenaMicrostructure and Mechanical Properties of Steels
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