Manual:Creating FEM analyses/pl

MES to skrót od Metoda Elementów Skończonych. Jest to rozległy temat matematyczny, ale w FreeCAD możemy myśleć o nim jako o sposobie obliczania rozchodzenia się energii wewnątrz obiektu 3D, poprzez pocięcie go na małe kawałki i przeanalizowanie wpływu każdego małego kawałka na jego sąsiadów. Ma to wiele zastosowań w inżynierii i elektromagnetyzmie, ale my skupimy się na jednym z zastosowań, które jest już dobrze rozwinięte w programie FreeCAD, a mianowicie na symulacji deformacji obiektów poddawanych działaniu sił i ciężarów.

Uzyskanie takiej symulacji odbywa się w programie FreeCAD za pomocą środowiska MES. Składa się na to kilka kroków: Przygotowanie geometrii, ustawienie jej materiału, wykonanie siatki, podział na mniejsze części, tak jak to robiliśmy w rozdziale Przygotowanie obiektów do druku 3D, a na koniec obliczenie symulacji.



Przygotowanie programu FreeCAD
The simulation itself is done by another piece of software, that is used by FreeCAD to obtain the results. As there are several interesting open source FEM simulation applications available, the FEM Workbench allows you to choose between them. However, currently only CalculiX is fully implemented. Another piece of software, called NetGen, which is responsible for generating the subdivision mesh, is also required. Detailed instructions to install these two components are provided in the FreeCAD documentation.

Przygotowanie geometrii
We will start with the house we modeled in the BIM modeling chapter. However, some changes have to be made to make the model suitable for FEM calculations. This involves, basically, discarding the objects that we don't want to include in the calculation, such as the door and window, and joining all the remaining objects into one.


 * Load the house model we modeled earlier
 * Delete or hide the page object, the section planes and the dimensions, leaving only our model
 * Hide the window, the door and the ground slab
 * Also hide the metal beams on the roof. They are very different objects from the rest of the house so we will simplify our calculation by not including them. Instead, we will assume that the roof slab is placed directly on top of the wall.
 * Now move the roof slab down so it rests on top of the wall: Edit the Rectangle object that we used as a base of the roof slab, and change its Placement->Position->X value from 3.18m to 3.00m
 * Our model is now clean:




 * The FEM Workbench can currently only calculate deformations on a single object. Therefore, we need to join our two objects (the wall and the slab). Switch to the Part Workbench, select the two objects, and press the [[Image:Part_Fuse.svg|16px]] Union. We have now obtained a fused object:



Tworzenie analizy

 * We are now ready to start a FEM analysis. Let's switch to the FEM Workbench
 * Select the fused object
 * Press the [[Image:Fem_Analysis.png|16px]] New Analysis button
 * A new analysis will be created and a settings panels opened. Here you can define the meshing parameters to be used to produce the FEM mesh. The main setting to edit is the Max Size which defines the maximum size (in millimeters) of each piece of the mesh. For now, we can leave the default value of 1000:




 * Po naciśnięciu przycisku i kilku sekundach obliczeń, nasza siatka MES jest gotowa:




 * We can now define the material to be applied to our mesh. This is important because depending on the material strength, our object will react differently to forces applied to it. Select the analysis object, and press the [[Image:FEM_MaterialSolid.png|16px]] New Material button.
 * A task panel will open to allow us to choose a material. In the Material drop-down list, choose the Concrete-generic material, and press OK.




 * We are now ready to apply forces. Let's start by specifying which faces are fixed into the ground and can therefore not move. Press the [[Image:FEM_ConstraintFixed.png|16px]] Constraint fixed button.
 * Click on the bottom face of our building and press OK. The bottom face is designated as unmovable:




 * We will now add a load on the top face, that could represent, for example, a massive weight being placed on the roof. For this we will use a pressure constraint. Press the [[Image:FEM_ConstraintPressure.png|16px]] Constraint pressure button.
 * Click the top face of the roof, set the pressure to 10MPa (the pressure is applied by square millimeter) and click the OK button. Our force is now applied:




 * We are now ready to start the calculation. Select the CalculiX object in the tree view, and press the [[Image:FEM_ControlSolver.png|32px]] Start Calculation button.
 * In the task panel that will open, click first the Write .inp file button to create the input file for CalculiX, then the Run CalculiX button. A few moments later, the calculation will be done:




 * We can now look at the results. Close the task panel, and see that a new Results object has been added to our analysis.
 * Double-click the Results object
 * Set the type of result that you want to see on the mesh, for example "absolute displacement", tick the show checkbox under Displacement, and move the slider next to it. You will be able to see the deformation growing as you apply more force:



The results displayed by the FEM workbench are of course currently not enough to perform real-life decisions about structures dimensioning and materials. However, they can already give precious information about how the forces flow through a structure, and which are the weak areas that will feel the most stress.

Do pobrania


 * The file created during this exercise: https://github.com/yorikvanhavre/FreeCAD-manual/blob/master/files/fem.FCStd

Więcej informacji


 * The FEM Workbench
 * Installing required FEM components
 * CalculiX
 * NetGen