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Assembly for Design & Analysis - A python library for structural analysis and design

Project description

ADA - Assembly for Design & Analysis

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A python library for working with structural analysis and design. This library should be considered as experimental.

The recommended way of installing ada-py is by creating a new isolated environment for the installation like so:

conda create -n adaenv -c conda-forge -c krande ada-py

or if you wish to download the latest build from any branch passing all unittests you can do

conda create -n adaenv -c conda-forge -c krande/label/dev ada-py

Here are some of the goals with ada-py:

  • Support reading, writing and modifying FE models and post-processing FE results
  • Support open source and commercial FE packages (based on what I use/would like to use regularly)
  • Support scriptable FE meshing
  • Support reading/writing CAD/BIM formats (STEP/IFC) & mesh formats (GLTF)
  • Use a CSG (Constructive Solid Geometry) core primitives library for boolean operations based on the IFC/STEP standards
  • Provide the building blocks for advanced parametric and procedural 3d model design and simulation workflows
  • The library should always strive for user ergonomics.

Quick Links

Try ada-py online with code-aster and calculix pre-installed

Binder-main

  • Feel free to start/join any informal topic related to adapy here.
  • Issues related to adapy can be raised here

Usage

Some examples of using the ada-py package

Create an IFC file

The following code

from ada import Assembly, Part, Beam

a = Assembly("MyAssembly") / (Part("MyPart") / Beam("MyBeam", (0, 0, 0), (1, 0, 0), "IPE300"))
a.to_ifc("C:/temp/myifc.ifc")

creates an Ifc file containing an IfcBeam with the following hierarchy

MyAssembly (IfSite)
    MyPart (IfcBuildingStorey)
        MyBeam (IfcBeam)

Beam Visualized in BlenderBIM

The resulting IfcBeam (and corresponding hierarchy) shown in the figure above is taken from the awesome blender plugin blenderbim.

Convert between FEM formats

Here is an example showing the code for converting a sesam FEM file to abaqus and code aster

Note! Reading FEM load and step information is not supported, but might be added in the future.

import ada

a = ada.from_fem('path_to_your_sesam_file.FEM')
a.to_fem('name_of_my_analysis_file_deck_directory_abaqus', 'abaqus')
a.to_fem('name_of_my_analysis_file_deck_directory_code_aster', 'code_aster')

Current read support is: abaqus, code aster and sesam
Current write support is: abaqus, code aster and sesam, calculix and usfos

Create and execute a FEM analysis in Calculix, Code Aster and Abaqus

This example uses a function beam_ex1 from here that returns an Assembly object with a single Beam with a few holes in it (to demonstrate a small portion of the steel detailing capabilities in ada and IFC) converted to a shell element mesh using a FE mesh recipe create_beam_mesh found here.

from ada.param_models.fem_models import beam_ex1

a = beam_ex1()

a.to_fem("MyCantilever_abaqus", "abaqus", overwrite=True, execute=True, run_ext=True)
a.to_fem("MyCantilever_calculix", "calculix", overwrite=True, execute=True)
a.to_fem("MyCantilever_code_aster", "code_aster", overwrite=True, execute=True)

after the code is executed you can look at the results using supported post-processing software or directly in python using Jupyter notebook/lab (currently only supported for Code Aster) for the FEA results.

Calculix Results Abaqus Results Code Aster (jupyter) results

To access the stress and displacement data directly using python here is a way you can use meshio to read the results from Calculix and Code Aster (continuing on the previous example).

from ada.config import Settings
import meshio

vtu = Settings.scratch_dir / "MyCantilever_calculix" / "MyCantilever_calculix.vtu"
mesh = meshio.read(vtu)

# Displacements in [X, Y, Z] at point @ index=-1
print('Calculix:',mesh.point_data['U'][-1])

rmed = Settings.scratch_dir / "MyCantilever_code_aster" / "MyCantilever_code_aster.rmed"
ca_mesh = meshio.read(rmed, 'med')

# Displacements in [X, Y, Z] at point @ index=-1
print('Code Aster:',ca_mesh.point_data['DISP[10] - 1'][-1][:3])

Note!

The above example assumes you have installed Abaqus, Calculix and Code Aster locally on your computer.

To set correct paths to your installations of FE software you wish to use there are a few ways of doing so.

  1. Add directory path of FE executable/batch to your system path.
  2. Add directory paths to system environment variables. This can be done by using the control panel or running the following from a cmd prompt with administrator rights:
:: Windows
setx ADA_abaqus_exe <absolute path to abaqus.bat>
setx ADA_calculix_exe <absolute path to ccx.exe>
setx ADA_code_aster_exe <absolute path to as_run.bat>

:: Linux?

:: Mac?

Note! It is very important that any paths containing whitespaces be converted to "shortened paths". To shorten a path on windows you can use the utility pathcopycopy.

For installation files of open source FEM software such as Calculix and Code Aster, here are some links:

Note! pip is not a recommended installation method due to an unstable behaviour often manifested as DLL import errors related to the vtk package.

Acknowledgements

This project would never have been possible without the existing open source python and c++ libraries. Although listed in the package dependencies (which is a long list), here are some of the packages that are at the very core of adapy;

  • IfcOpenShell
  • OpenCascade
  • PythonOCC-Core
  • Gmsh
  • Trimesh

A huge thanks to all involved in the development of the packages mentioned here and in the list of packages adapy depends on.

If you feel that a certain package listed in the adapy dependencies should be listed here please let me know and I will update the list :)

Project Responsible

Kristoffer H. Andersen

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