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Modeling complex polycrystalline alloys using a Generative Adversarial Network enabled computational platform

Author

Listed:
  • Brayan Murgas

    (Johns Hopkins University)

  • Joshua Stickel

    (Johns Hopkins University)

  • Luke Brewer

    (University of Alabama)

  • Somnath Ghosh

    (Johns Hopkins University)

Abstract

Creating statistically equivalent virtual microstructures (SEVM) for polycrystalline materials with complex microstructures that encompass multi-modal morphological and crystallographic distributions is a challenging enterprise. Cold spray-formed (CSF) AA7050 alloy containing coarse-grained prior particles and ultra-fine grains (UFG) and additively manufactured (AM) Ti64 alloys with alpha laths in beta substrates. The paper introduces an approach strategically integrating a Generative Adversarial Network (GAN) for multi-modal microstructures with a synthetic microstructure builder DREAM.3D for packing grains conforming to statistics in electron backscatter diffraction (EBSD) maps for generating SEVMs of CSF and AM alloy microstructures. A robust multiscale model is subsequently developed for self-consistent coupling of crystal plasticity finite element model (CPFEM) for coarse-grained crystals with an upscaled constitutive model for UFGs. Sub-volume elements are simulated for efficient computations and their responses are averaged for overall stress-strain response. The methods developed are important for image-based micromechanical modeling that is necessary for microstructure-property relations.

Suggested Citation

  • Brayan Murgas & Joshua Stickel & Luke Brewer & Somnath Ghosh, 2024. "Modeling complex polycrystalline alloys using a Generative Adversarial Network enabled computational platform," Nature Communications, Nature, vol. 15(1), pages 1-16, December.
    • Handle: RePEc:nat:natcom:v:15:y:2024:i:1:d:10.1038_s41467-024-53865-3
    DOI: 10.1038/s41467-024-53865-3
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