Polycrystal plasticity with grain boundary evolution: a numerically efficient dislocation-based diffuse-interface model Article Swipe

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YOU? · · 2021 · Open Access · · DOI: https://doi.org/10.1088/1361-651x/ac2f84

Grain structure plays a key role in the mechanical properties of alloy materials. Engineering the grain structure requires a comprehensive understanding of the evolution of grain boundaries (GBs) when a material is subjected to various manufacturing processes. To this end, we present a computationally efficient framework to describe the co-evolution of bulk plasticity and GBs. We represent GBs as diffused geometrically necessary dislocations, whose evolution describes GB plasticity. Under this representation, the evolution of GBs and bulk plasticity is described in unison using the evolution equation for the plastic deformation gradient, an equation central to classical crystal plasticity theories. To reduce the number of degrees of freedom, we present a procedure which combines the governing equations for each slip rates into a set of governing equations for the plastic deformation gradient. Finally, we outline a method to introduce a synthetic potential to drive migration of a flat GB. Three numerical examples are presented to demonstrate the model. First, a scaling test is used to demonstrate the computational efficiency of our framework. Second, we study the evolution of a tricrystal, formed by embedding a circular grain into a bicrystal, and demonstrate qualitative agreement between the predictions of our model and those of molecular dynamics simulations by Trautt and Mishin (2014 Acta Mater. 65 19–31). Finally, we demonstrate the effect of applied loading in texture evolution by simulating the evolution of a synthetic polycrystal under applied displacements.

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Artificial Intelligence

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Materials science Plasticity Grain boundary Dislocation Deformation (meteorology) Texture (cosmology) Slip (aerodynamics) Statistical physics Mechanics Geometry Microstructure Computer science Composite material Mathematics Physics Thermodynamics Artificial intelligence Image (mathematics)

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Type: article
Language: en
Landing Page: https://doi.org/10.1088/1361-651x/ac2f84
OA Status: green
Cited By: 9
References: 51
Related Works: 10
OpenAlex ID: https://openalex.org/W3207893054

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DOI: https://doi.org/10.1088/1361-651x/ac2f84

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Title: Polycrystal plasticity with grain boundary evolution: a numerically efficient dislocation-based diffuse-interface model

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Type: article

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Language: en

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Publication year: 2021

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Publication date: 2021-10-13

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Authors: Junyan He, Nikhil Chandra Admal

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Landing page: https://doi.org/10.1088/1361-651x/ac2f84

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OA URL: https://arxiv.org/pdf/2102.00666

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Concepts: Materials science, Plasticity, Grain boundary, Dislocation, Deformation (meteorology), Texture (cosmology), Slip (aerodynamics), Statistical physics, Mechanics, Geometry, Microstructure, Computer science, Composite material, Mathematics, Physics, Thermodynamics, Artificial intelligence, Image (mathematics)

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Cited by: 9

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Citations by year (recent): 2025: 1, 2024: 3, 2023: 2, 2022: 3

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References (count): 51

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