WELSIM crack WELSIM 2.1 Simulation Software

WELSIM was born out of a vision to create a universal simulation utility that can successfully enable a broad engineering and scientific community to conduct simulation studies with greater confidence and at a lower cost. Customers use our software to help ensure the integrity of their innovations. WELSIM comes with an all-in-one user interface and self-integrated functionality, including pre-processing, solver, and post-processing modules. It is a long-term supported product designed for accurate modeling of engineering problems using finite elements and advanced numerical methods. By leveraging modern algorithms and software architecture, WELSIM demonstrates outstanding computational performance and user experience.

Supports 3D structural, thermal, and electromagnetic analysis to reveal physics-based results.

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A safe software program that does not collect any of your data.

Easy-to-use graphical interface requires no learning curve.

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WELSIM crack patch v2022 v2.1.6689 x64

WELSIM (Simulation Software)

Using WELSIM is simple. Here are the main steps:

1. Create a FEM project. When you click the New FEM Project button on the toolbar or menu, a new FEM project and related sub-objects are created in the tree window.

If no material project is provided, one is created simultaneously with the FEM project.

You can create multiple FEM projects.

If there are multiple FEM projects, you can activate (set current) one by double-clicking the project node. The active project is shown in bold.

2. Define materials. You can create a new material object by pressing the “Add Material” button. Double-click the material object to edit the material properties.

All materials are defined in material projects.

Only one material item is displayed in the solution tree.

3. Import or create geometry. You have two ways to prepare geometry: 1) Create simple 3D geometry from predefined shapes, such as box and cylinder shapes; 2) Import CAD files.

Imported geometry supports STEP and IGES formats.

You can adjust the size of the imported geometry by setting the Scale property.

4. Mesh. Click the “Generate Mesh” button and you will automatically mesh the entire domain with tetrahedral elements.

Supports Tet10 (default) and Tet4 elements. You can switch between them by changing the Quadratic property.

You can adjust the mesh density by changing the Maximum Size and Mesh Density properties.

When you set the Mesh Density property to User Defined, additional properties Growth Rate, Segments per Edge, and Segments per Radius appear that allow you to manually change the mesh density.

5. Define the analysis conditions. You can define the simulation details by changing the properties of the FEM Project, Study, and Study Settings tree nodes.

6. Apply boundary conditions. You can insert multiple boundary condition objects and define the properties of the boundary conditions.

In the Geometry Extents property, you can select surfaces or edges. Press the Ctrl or Shift key to select multiple entities.

When the boundary condition selection is valid, the annotation is displayed in the upper left of the graphics window.

As you change the boundary condition details, the graph and table view windows should update accordingly.

7. Solve. Click the “Calculate” button to solve the current FEM project.

8. Display results. After solving the model, you can insert and evaluate the result objects.

9. The analysis is complete. You can save the project.