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Site Navigation

  • News
  • Installation
  • Documentation
  • Support
  • Development
  • GitHub
  • Google Scholar

Section Navigation

  • Usage
  • Examples
    • Create Texture for a Dual-Phase Microstructure
    • Generate a Three-Step Load Case for the Grid Solver
    • Create a Polycrystal with Voronoi Tessellation for the Grid Solver
    • Add IPF of the inital microstructure to the grid file
    • Visualization of triply periodic minimal surfaces (TPMS)
    • Rescale a Grid Solver Geometry File
    • Add Derived Field Data
    • Density Plot with Pandas
    • Plot Data per Grain with Scatter
    • Calculate r-Value
  • Video Tutorials
  • Processing Tools
    • Pre-Processing
    • Post-Processing
    • Miscellaneous
  • File Formats
    • material.yaml
      • homogenization
      • phase
    • numerics.yaml
    • Grid Solver
    • Mesh Solver
    • MSC Marc
    • Result (DADF5)
  • Crystal Structures
    • Face-centered cubic (cF)
    • Body-centered cubic (cI)
    • Hexagonal (hP)
  • Literature

Crystal Structures#

The crystal plasticity material models can be used in conjunction with four different lattice types:

  • Face-centered cubic (cF)

  • Body-centered cubic (cI)

  • Hexagonal (hP)

  • Body-centered tetragonal (tI)

All lattice-related information is defined in crystal.f90 and in the Python class damask.Crystal.

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