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=== Preface === |
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This page collects all informations about the current solver used by FreeCAD's [[FEM Module|FEM Module]]. The interface between the solver and FreeCAD in pre- as well as post processing is also described. At the moment (Begin 2016 and FreeCAD 0.16dev) the only supported solver by the FEM Module is [[http://www.calculix.de/ CalculiX]]. Depending on the operating system you are working with you need to install CalculiX first. Check out [FEM Install]. |
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== Introduction == |
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Interaction between FEM Module and CalculiX is done by text files. The FEM Module writes a CalculiX input file, starts CalculiX, logs the output of CalculiX and read the output files of CalculiX if they are available. The [[FEM SolverControl|FEM Control Solver]] tool manages the whole process. User interaction in the process is possible. |
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This page collects information on the [http://www.calculix.de/ CalculiX] finite element solver, the default solver in the {{KEY|[[Image:Workbench_FEM.svg|24px]] [[FEM_Workbench|FEM Workbench]]}} for structural and thermo-mechanical analysis as of FreeCAD 0.17. Depending on the operating system you are working with, you'll need to install CalculiX before running your first simulation. Please see [[FEM_Install|FEM Install]]. |
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CalculiX uses abaqus input file format. The input file could be edited before the solver is started. The units used in the CalculiX input file are independet from the units used in FreeCAD. They will be mm and N. (ToDo: check this. What happens with the mesh if inch is used in FreeCAD. Density was introduced. With this we have kg and s and no longer N?! how about this !?!) |
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The solver is able to do linear and non-linear calculations, for static, dynamic, and thermal problems. The solver operates on an Abaqus input file ({{incode|.inp}}), which means it can be used with different pre-processors that support this format. The program includes its own graphical preprocessor which, however, is not used by FreeCAD, only the solver itself. |
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CalculiX is designed to run on Unix platforms like Linux and Irix computers but also on MS-Windows. CalculiX was developed by engineers from MTU Aero Engines, Munich, Germany, to assist them in designing machinery such as jet turbines. The software is currently released to the public on the terms of the GPL version 2. |
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== Integration with FreeCAD == |
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Interaction between the [[FEM_Workbench|FEM Workbench]] and CalculiX is done through writing and reading text files. The sequence of operations is as follows: |
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# A CalculiX input file is created with details required to run the simulation |
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# The CalculiX solver is started with this input file |
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# The output from the solver is logged |
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# The output files from the solver are read, if they are available |
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The [[FEM_SolverControl|FEM Control Solver]] tool manages the whole process. User interaction in the process is possible. |
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The input file that CalculiX uses can be prepared and edited before the solver is started. The units used in the input file are independent of the units set in FreeCAD; they will always be millimeters (mm) and Newton (N). |
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{{Emphasis|(ToDo: check this. What happens with the mesh if inch is used in FreeCAD? As density was introduced, with this we have kg and s and no longer N?! how about this?!)}} |
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=== Элементы МКЭ === |
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===== FEM Elements ===== |
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* Tet4 and Tet10 |
* Tet4 and Tet10 |
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* S3 and S6 |
* S3 and S6 |
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* B31 and B32 |
* B31 and B32 |
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* |
* and those described in [[FEM_Mesh_CalculiX|FEM Mesh CalculiX]] |
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=== Анализ === |
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* |
* Linear static analysis |
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* Frequency analysis |
* Frequency analysis |
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* Coupled thermal |
* Coupled thermal-structural analysis |
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=== Материалы === |
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read resulting stress (Von Mises) and all displacement |
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The FEM Workbench loads CalculiX results to the result object which will contain: |
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* Displacements |
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* Stresses |
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{{clear}} |
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* Strains |
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* Equivalent plastic strain (PEEQ) – if nonlinear material was used |
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* Temperature – for thermomechanical analysis |
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FreeCAD reads results from *.frd file which was created by CaluliX. If these results contain multiple time steps, each time step is imported to FreeCAD as a new result object. Same behavior applies for Frequency or Buckling analysis with multiple eigenvalues. |
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Reaction forces can be found in ccx_dat_file which contains reaction force components (fx, fy, fz) for each Constraint fixed and for each Constraint displacement which constrains translation degrees of freedom. |
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== Related == |
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* [[FEM_Mesh_CalculiX|FEM Mesh CalculiX]] |
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* [[FEM_Preferences#CalculiX|CalculiX preferences]] dialog menu in the FEM Workbench preferences menu |
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{{FEM Tools navi{{#translation:}}}} |
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Revision as of 14:34, 24 August 2021
Introduction
This page collects information on the CalculiX finite element solver, the default solver in the 
FEM Workbench for structural and thermo-mechanical analysis as of FreeCAD 0.17. Depending on the operating system you are working with, you'll need to install CalculiX before running your first simulation. Please see FEM Install.
The solver is able to do linear and non-linear calculations, for static, dynamic, and thermal problems. The solver operates on an Abaqus input file (.inp), which means it can be used with different pre-processors that support this format. The program includes its own graphical preprocessor which, however, is not used by FreeCAD, only the solver itself.
CalculiX is designed to run on Unix platforms like Linux and Irix computers but also on MS-Windows. CalculiX was developed by engineers from MTU Aero Engines, Munich, Germany, to assist them in designing machinery such as jet turbines. The software is currently released to the public on the terms of the GPL version 2.
Integration with FreeCAD
Interaction between the FEM Workbench and CalculiX is done through writing and reading text files. The sequence of operations is as follows:
- A CalculiX input file is created with details required to run the simulation
- The CalculiX solver is started with this input file
- The output from the solver is logged
- The output files from the solver are read, if they are available
The FEM Control Solver tool manages the whole process. User interaction in the process is possible.
Preprocessing interface
The input file that CalculiX uses can be prepared and edited before the solver is started. The units used in the input file are independent of the units set in FreeCAD; they will always be millimeters (mm) and Newton (N).
(ToDo: check this. What happens with the mesh if inch is used in FreeCAD? As density was introduced, with this we have kg and s and no longer N?! how about this?!)
The CalculiX interface supports the following objects:
Элементы МКЭ
- Tet4 and Tet10
- S3 and S6
- B31 and B32
- and those described in FEM Mesh CalculiX
Анализ
- Linear static analysis
- Frequency analysis
- Coupled thermal-structural analysis
Материалы
- One linear elastic isotropic material (uniformity in all directions)
- Multiple material use is in development
Postprocessing interface
The FEM Workbench loads CalculiX results to the result object which will contain:
- Displacements
- Stresses
- Strains
- Equivalent plastic strain (PEEQ) – if nonlinear material was used
- Temperature – for thermomechanical analysis
FreeCAD reads results from *.frd file which was created by CaluliX. If these results contain multiple time steps, each time step is imported to FreeCAD as a new result object. Same behavior applies for Frequency or Buckling analysis with multiple eigenvalues.
Reaction forces can be found in ccx_dat_file which contains reaction force components (fx, fy, fz) for each Constraint fixed and for each Constraint displacement which constrains translation degrees of freedom.
Related
- FEM Mesh CalculiX
- CalculiX preferences dialog menu in the FEM Workbench preferences menu
FEM
- Materials: Solid, Fluid, Nonlinear mechanical, Reinforced (concrete); Material editor
- Element geometry: Beam (1D), Beam rotation (1D), Shell (2D), Fluid flow (1D)
Constraints
- Electromagnetic: Electrostatic potential, Current density, Magnetization
- Geometrical: Plane rotation, Section print, Transform
- Mechanical: Fixed, Displacement, Contact, Tie, Spring, Force, Pressure, Centrif, Self weight
- Thermal: Initial temperature, Heat flux, Temperature, Body heat source
- Overwrite Constants: Constant vacuum permittivity
- Solve: CalculiX Standard, Elmer, Mystran, Z88; Equations: Deformation, Elasticity, Electrostatic, Electricforce, Magnetodynamic, Magnetodynamic 2D, Flow, Flux, Heat; Solver: Solver control, Solver run
- Results: Purge, Show; Postprocessing: Apply changes, Pipeline from result, Warp filter, Scalar clip filter, Function cut filter, Region clip filter, Contours filter, Line clip filter, Stress linearization plot, Data at point clip filter, Filter function plane, Filter function sphere, Filter function cylinder, Filter function box
- Additional: Preferences; FEM Install, FEM Mesh, FEM Solver, FEM CalculiX, FEM Concrete; FEM Element Types