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Python Structural Analysis package

Project description

Project Status: Active – The project has reached a stable, usable state and is being actively developed. Documentation pages

pystran: Python for Structural Analysis

A simple structural analysis tool in Python, for structures consisting of truss and beam members, springs, and rigid bodies, both in two dimensions and in three dimensions. The finite-element principles and development of the techniques is described in the textbook "Finite Element Modeling of Structures with Shells and Beams ".

Alt pystran capabilities in graphic abstract

News

  • 05/21/2026: Refactoring.

Past news

Features & Limitations

  • The package analyzes two-dimensional and three-dimensional structures made up of truss (axial) members and beams (possibly in combination), rigid links, and general springs. Concentrated masses can be added at joints.
  • Linear statics and dynamics (free vibration) solvers are included.
  • Only elastic models can be solved.
  • For beams, only the Bernoulli-Euler model is implemented, so no shear deformation is taken into account.
  • Only straight members are treated.
  • It is assumed that the cross sections are doubly symmetric, and there is no coupling between the bending actions in the two orthogonal principal planes.
  • Coupling of axial and bending action is not implemented. This means that the neutral axis must pass through the centroid.
  • Warping of the cross sections is not modelled, hence only free torsion effects are included.
  • Member loading is not considered. All member loading needs to be converted to nodal forces by the user.
  • Member end releases (hinges) are not implemented. Internal hinges can be modelled with linked joints.
  • Degrees of freedom are only along the global Cartesian axes. Skew supports are not included (except with a penalty method based on springs)
  • Offsets of the beams from the joints are currently not implemented.
  • Rigid links between pairs of joints can be modeled with a penalty approach.

Requirements

pystran depends on the following Python packages:

  • NumPy
  • SciPy
  • Matplotlib

These requirements can be easily satisfied by running the examples in the Spyder IDE.

Documentation

Documentation of the package is provided in these HTML pages.

More details about the generation of the documentation are here.

If you are interested in how the techniques in the code are developed from the principles of weighted-residual methods (modern finite element analysis), check out the textbook "Finite Element Modeling of Structures with Shells and Beams ".

Running

This package is distributed through the official Python channels (https://pypi.org). Just do

pip install pystran

It may also to be downloaded from GitHub as a zip file, and expanded in some convenient location.

The pystran folder can be located by looking for this README.md file.

The easiest way to run a pystran example is to download and install Spyder 6. Detailed instructions are provided.

It is also possible to run simulations using a plain Python in a terminal.

Tutorials

Step-by-step tutorials are available in the tutorials folder. For example, run tutorials in the pystran/tutorials in the terminal as

py tutorials/01_three_bars_tut.py

Or, use Spyder, which makes the whole process a lot easier to set up.

Testing

In the pystran/tests folder, run

py unittests_planar_truss.py 

and analogously for the other unit test files.

Past news

  • 11/08/2025: Add publishing workflow.
  • 03/13/2025: Update documentation for the sphinx system.
  • 03/10/2025: Add rigid links and general springs.
  • 03/05/2025: Describe the operation of the scripts.
  • 02/12/2025: Make it possible to use general joint and member identifiers.
  • 02/05/2025: Add general springs to ground.
  • 01/30/2025: Add tutorials.
  • 01/22/2025: Implement initial functionality.

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