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- Assign a Material to each object/surface and enter the specific values for the Young's Modulus (210e3) and poisson ratio (0.28) in the Material Editor
- Activate the option design space for the relevant stl file. Only one volume can be selected as such. In
- In this case: Eccentricdesign1
Step 3: Definition of boundary conditions
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| Name | Object | Direction |
|---|---|---|
| Fixation_0degree1 | Eccentric0_degree11 | x, y, z (=0) |
| Fixation_0degree2 | Eccentric0_degree21 | x, y, z (=0) |
| Fixation_45degree1 | Eccentric45_degree11 | x, y, z (=0) |
| Fixation_45degree2 | Eccentric45_degree21 | x, y, z (=0) |
| Fixation_90degree1 | Eccentric90_degree11degree11 | x, y, z (=0) |
| Fixation_90degree2 | Eccentric90_degree21 | x, y, z (=0) |
- A total of 5 forces and 6 fixations should have been created as a result.
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- Choose the design type normal
- Enter the optimization goal stress: 50 MPa
- Open
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- Result File Formats
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- . The following result files should be activated:
- stl File: results of each iteration in stl file format
- stl Files Intersected: result of each iteration intersected with the design space in stl file format
- ply Files with Stress: results with the information of stresses of each iteration (must be activated to show the results in the Visualization space)
- ply Files with Displacement: results with the information of displacements of each iteration (must be activated to show the results in the Visualization space)
- More information on result file formats here
All Inputs can be viewed and checked in the configuration file. The file should look like this.
wrong file uploadedPlease make sure only one .amendate file is in your project folder.
Step 5: Save the project
Step 6: Starting the optimization and visualizing the results
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