Tutorial 12: To Export a Compensated Geometry

Prepare a geometry that is intended to distort into the desired shape.

Video length (3:26).

Sample files for use with the tutorials are available in the Simulation_Utility_Tutorial_Files_2021.zip package from this Download Link. Expand the downloaded ZIP archive into a convenient directory from which you can import files into Simulation Utility as you need them.

In this tutorial, we use the Warped STL feature to modify the geometry of an STL file to compensate for the distortion that was revealed in a simulation of the original geometry. The figure below illustrates this concept:

When the nominal geometry is printed, it shows excessive distortion. The same distortion is predicted by the model. Using compensation, the original geometry is altered based upon the predicted displacements, which when printed, shows a significant reduction in distortion.

Original displacement results

The figure shows simulation results using the file Example_12.stl. Note the areas of maximum displacement at the upper, outer corners of the original part. A closer look shows that these outer corners are displaced slightly inward, toward the center of the part.

When we prepare a compensated STL, we can expect to see the geometry offset in these corners so that displacement during the build will modify the geometry into the desired final shape.

  1. Open the file Example_12.tivus in Simulation Utility, check that the light bulb for Geometry is turned off, then turn on the lightbulb for Displacement results. On the Results tab, click Warped STL . The Export Compensated dialog opens.

    A positive value of 1 in the Warpage Magnification Factor field would export an STL file showing the predicted displacements. A value of –1 would produce a completely compensated STL, applying the full simulated displacements to the original STL dimensions. A value less than –1 would produce an STL file with exaggerated compensation, and a value greater than 1 would produce a distorted file.

  2. In the Warpage Magnification Factor field, set a low negative value of -4, so the warping will be more visible in the results.
  3. Check that the STL export path is suitable, redirecting it if necessary by using the button to the right of the field.
  4. Click Export.

    The Export Compensated dialog shows you the name of the warped STL file, which contains the warpage magnification factor in an extension of -4.0.stl, and the path to the file.

    The file name also includes the string _Pre_Removal if you used the Increment setting All parts on build plate, or the string Post_Plate_Removal if you used the setting After removal from build plate.

  5. To open the compensated file, on the Home tab, click Import, browse to the warped STL file and open it.
  6. In the Browser, check the light bulbs under Results, and turn off any that are on. Leave on the bulb for Geometry.

    You should notice that the upper corners are pushed outward to compensate for the expected inward displacement. The warpage magnification factor of -4 was intended to show displacement that is clearly visible, but this value is too extreme to use in practice.