FreeCAD Logo FreeCAD 1.0
  • English Afrikaans Arabic Belarusian Catalan Czech German Greek Spanish Spanish Basque Finnish Filipino French Galician Croatian Hungarian Indonesian Italian Japanese Kabyle Korean Lithuanian Dutch Norwegian Bokmal Polish Portuguese Portuguese Romanian Russian Slovak Slovenian Serbian Swedish Turkish Ukrainian Valencian Vietnamese Chinese Chinese
  • Features
  • Download
  • Blog
  • Documentation
    Documentation index Getting started Users documentation The FreeCAD manual Workbenches documentation Python coding documentation C++ coding documentation Tutorials Frequently asked questions Privacy policy About FreeCAD
  • Contribute
    How to help Sponsor Report a bug Make a pull request Jobs and funding Contribution guidelines Developers handbook Translations
  • Community
    Code of conduct Forum The FPA GitHub GitLab Codeberg Mastodon Matrix IRC IRC via Webchat Gitter Discord Reddit Twitter Facebook LinkedIn Calendar
  • ♥ Donate

Donate

$
SEPA Information
Please set up your SEPA bank transfer to:
The FreeCAD project association
IBAN: BE04 0019 2896 4531
BIC/SWIFT code: GEBABEBBXXX
Bank agency: BNP Paribas Fortis
Address: Rue de la Station 64, 1360 Perwez, Belgium

If you are not sure or not able to commit to a regular donation, but still want to help the project, you can do a one-time donation, of any amount.

Choose freely the amount you wish to donate one time only.

We call sponsoring the act of donating money recurrently to the FreeCAD project. You can do that as an individual or as a company or institution, through different channels or platforms, depending on your preferences.

Sponsoring FreeCAD allows its developers to count on a steady flow of income, so it allows the FPA to plan things ahead, and the FreeCAD developers to invest themselves more seriously into FreeCAD.

To encourage persons and companies to sponsor the FreeCAD project, we have created different sponsoring tiers. When donating regularly to the project, unless you prefer to stay anonymous, your name, company name and/or logo will be featured on this website, depending on the tier you fit into:

  • ♥ Normal sponsor : from 1 USD / 1 EUR per month. You will not have your name displayed here, but you will have helped the project a lot anyway. Together, normal sponsors maintain the project on its feet as much as the bigger sponsors.
  • 🥉 Bronze sponsor : from 25 USD / 25 EUR per month. Your name or company name is displayed on this page.
  • 🥈 Silver sponsor : from 100 USD / 100 EUR per month. Your name or company name is displayed on this page, with a link to your website, and a one-line description text.
  • 🥇 Gold sponsor : from 200 USD / 200 EUR per month. Your name or company name and logo displayed on this page, with a link to your website and a custom description text. Companies that have helped FreeCAD early on also appear under Gold sponsors.

Instead of donating each month, you might find it more comfortable to make a one-time donation that, when divided by twelve, would give you right to enter a sponsoring tier. Don't hesitate to do so!

Choose freely the amount you wish to donate each month.

Please inform your forum name or twitter handle as a notein your transfer, or reach to us, so we can give you proper credits!

GuiCommand: Name: FEM SolverMystran MenuLocation: Solve , Solver Mystran Workbenches: FEM_Workbench Shortcut: S M Version: 0.20 SeeAlso: FEM_tutorial

FEM SolverMystran

Description

The SolverMystran command enables usage of the MYSTRAN solver. It may be used for:

  1. Setting analysis parameters.
  2. Selecting working directory.
  3. Running the MYSTRAN solver.

Installation

Windows

You can get the Mystran executable here. Put the folder where you place mystran.exe (the executable must have this exact name - remove the remaining part of the default name) in the Windows PATH variable or just place the file in the FreeCAD\bin folder. If necessary, specify it under Preferences → FEM → Mystran.

The SolverMystran also needs two other packages:

  • pyNastran - to write out case file.
  • hfcMystran - to read in Mystran\'s NEU result file.

pyNastran can be installed through pip:

  1. Open a Command terminal in your FreeCAD\bin folder.
  2. Enter: {{Incode|python -m pip install pyNastran}}
  3. It will be installed in the FreeCAD\bin\lib\site-packages folder.

hfcMystran can be downloaded from its github site as a zip file (Code → Download ZIP). Unzip it and place it in the FreeCAD\Mod folder.

Linux

Linux installation procedure is similar but there are some differences.

After downloading the Mystran executable, rename it as explained above, allow it to be executed (right-click → Properties → Permissions → Allow executing file as program) and put it in the usr/bin directory of FreeCAD.

To install pyNastran, enter the following commands in the Python console in FreeCAD:

import subprocess
subprocess.run(['pip', 'install', 'pyNastran'])

Finally, download and unpack hfcMystran and put it in the usr/Mod directory of FreeCAD.

Quick test

After installation you can select Utilities → Open FEM examples in the FEM Workbench. Under Solver → Mystran you can find some working Mystran examples.

Usage

  1. After the creation of an Analysis container, use one of the following alternatives:
    • Select Solve → Solver Mystran from the menu.
    • Press the S then M shortcut keys.
  2. Double click the SolverMystran object.
  3. Click the Write button.
  4. Click the Run button.

Limitations

  • Currently, only displacements are available as contour plots from analyses with this solver. To see the stresses, switch to hfcMystran workbench, open your case and its F06 file. pyNastran GUI can be used to plot all the results.
  • Only the following element types are currently supported: first and second order tetrahedrons, first order triangular and quadrilateral shells and first order beams. If different elements are generated with Gmsh, the Mystran solver will show an error.

File function

Under Mod\Fem\femsolver\mystran, there are these files:

add_con_displacement.py
add_con_fixed.py
add_con_force.py
add_femelement_geometry.py
add_femelement_material.py
add_mesh.py
add_solver_control.py
writer.py
solver.py
tasks.py

The function of each file are:

writer.py - main control file

model = BDF()
model = add_solver_control.add_solver_control(pynasf, model, self)
model = add_femelement_geometry.add_femelement_geometry(pynasf, model, self)
model = add_mesh.add_mesh(pynasf, model, self)
model = add_femelement_material.add_femelement_material(pynasf, model, self)
model = add_con_fixed.add_con_fixed(pynasf, model, self)
model = add_con_displacement.add_con_displacement(pynasf, model, self)
model = add_con_force.add_con_force(pynasf, model, self)

BDF() - Create empty case file.

$pyNastran: version=msc
$pyNastran: punch=False
$pyNastran: encoding=utf-8
$pyNastran: nnodes=0
$pyNastran: nelements=0
ENDDATA

add_solver_control.py - Adding EXECUTIVE CONTROL DECK and CASE CONTROL DECK.

$EXECUTIVE CONTROL DECK
SOL 101
CEND
$CASE CONTROL DECK
ECHO = NONE
TITLE = pyNastran for generating solverinput for for Mystran
SUBCASE 1
    DISPLACEMENT(SORT1,REAL) = ALL
    LOAD = 1
    SPC = 1
    SPCFORCES(SORT1,REAL) = ALL
    STRESS(SORT1,REAL,VONMISES,BILIN) = ALL
    SUBTITLE = Default
BEGIN BULK
$PARAMS
PARAM       POST      -1

add_femelement_geometry.py - Adding GRID cards

add_mesh.py - Adding element cards

add_femelement_material.py - Adding MAT1 card

add_con_fixed.py - Adding SPCADD and SPC1 cards

add_con_displacement.py - Adding SPCADD and SPC1 cards

add_con_force.py - Adding FORCE cards

{{FEM Tools navi}}

⏵ documentation index > FEM > FEM SolverMystran

This page is retrieved from https://github.com/FreeCAD/FreeCAD-documentation/blob/main/wiki/FEM_SolverMystran.md

Get in touch!
Forum GitHub Mastodon Matrix IRC Gitter.im Discord Reddit Twitter Facebook LinkedIn

© The FreeCAD Team. Homepage image credits (top to bottom): ppemawm, r-frank, epileftric, regis, rider_mortagnais, bejant.

This project is supported by: , KiCad Services Corp. and other sponsors

GitHubImprove this page on GitHub