homogenised-finite-elements

Contents:

  • Getting Started
  • Homogenised Finite Elements Pipeline
    • pipeline_runner module
    • aim2fe module
    • create_loadcases module
    • simulation module
    • write_abaqus module
    • hfe_accurate_pipeline module
    • material_mapping module
    • preprocessing module
    • postprocessing module
    • project_normals_cortex module
    • struct_voxel_indices module
    • surface_nets module
    • check_props_recovery module
    • f_decomposition module
    • imutils module
    • io_utils module
    • odb2vtk_wrapper module
    • print_optim_report module
    • read_mech_params module
homogenised-finite-elements
  • Getting Started
  • print_optim_report module
  • View page source

print_optim_report moduleΒΆ

print_optim_report.OR_ult_load_disp(optim: dict, loadcase: str) → dict[source]

Computes maximum force and maximum moment and respective displacements and angles.

Parameters:
  • optim

  • loadcase

Return type:

optim dict

print_optim_report.compute_bone_report_variables_no_psl(bone: dict) → dict[source]
print_optim_report.compute_bone_volume(bone: dict, SEG_array) → dict[source]

Computes bone volume from segmentation SEG_array

Parameters:
  • bone

  • SEG_array

print_optim_report.compute_optim_report_variables(optim: dict, path2dat: Path, thickness_stacks: float)[source]
print_optim_report.compute_tissue_mineralization(bone: dict, SEG_array, BMD_array, string: str) → dict[source]

Compute tissue mineralization by masking BMD image with SEG and compute mean BMD of both phases

Parameters:
  • bone

  • SEG_array

  • BMD_array

  • string

Return type:

bone

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