Skip to content

MATLAB and Python code for generating 2D and 3D synthetic polycrystalline microstructures using Laguerre tessellations.

License

Notifications You must be signed in to change notification settings

DPBourne/Laguerre-Polycrystalline-Microstructures

Folders and files

NameName
Last commit message
Last commit date

Latest commit

 
 
 
 
 
 
 
 
 

Repository files navigation

LPM: Laguerre-Polycrystalline-Microstructures

MATLAB and Python code for generating 2D and 3D synthetic polycrystalline microstructures using Laguerre tessellations, including fast algorithms for generating grains of prescribed volumes using optimal transport theory.

Getting started

To use the MATLAB functions you must first install

Replace the file matGeom/meshes3d/intersectPlaneMesh.m with the version in this repository.

The Python examples use the library pysdot.

Examples

See the Examples folder for examples from the following papers:

  • Bourne, D.P., Pearce, M. & Roper, S.M. (2024) Inverting Laguerre tessellations: Recovering tessellations from the volumes and centroids of their cells using optimal transport, arXiv:2406.00871. PDF
  • Bourne, D.P., Pearce, M. & Roper, S.M. (2023) Geometric modelling of polycrystalline materials: Laguerre tessellations and periodic semi-discrete optimal transport, Mechanics Research Communications, 127, 104023. PDF
  • Bourne, D.P., Kok, P.J.J., Roper, S.M. & Spanjer, W.D.T. (2020) Laguerre tessellations and polycrystalline microstructures: A fast algorithm for generating grains of given volumes, Philosophical Magazine, 100, 2677-2707. PDF

Licence

See LICENCE.md

Related software

  • pyAPD - our 'sister repository' for computing anisotropic Laguerre diagrams with grains of prescribed volumes
  • DREAM.3D
  • Kanapy
  • Neper

Main contributors

  • Steve Roper, University of Glasgow
  • David Bourne, Heriot-Watt University and the Maxwell Institute for Mathematical Sciences
  • Mason Pearce, Heriot-Watt University and the Maxwell Institute for Mathematical Sciences

This work was in collaboration with Piet Kok (Universiteit Gent, Tata Steel) & Wil Spanjer (Tata Steel).

About

MATLAB and Python code for generating 2D and 3D synthetic polycrystalline microstructures using Laguerre tessellations.

Topics

Resources

License

Stars

Watchers

Forks

Releases

No releases published

Packages

No packages published

Languages