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Goal of this tutorial

  • Get to know the optimisation model setup with symmetry constraint

Bridge.jpg

Training:

Relevant data for this tutorial:

View file
nameBridge.x_t

Step 1: Start MSC Apex Generative Design

The program starts and you can directly create your optimisation model

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Step 2: Model generation

You can either create the geometry directly in MSC Apex Generative Design or import already existing files. You can import for example .xb, .xt, .step, and .sldprt files into the program.

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  • Create the material in the Materials editor and assign it to the Design Space. In this case the material behaviour is Isotropic.

  • The specific values needed are the Young's Modulus (192372 MPa), Poisson ratio (0.3) and Density (7.97E-6 kg/mm3).

  • The Tension Strength is the maximum allowable stress for the material and is set to 320 MPa.

Step 3: Definition of boundary conditions

With the view display controls in the left top corner the Design Space can be activated to visualize the mirrored geometry. Boundary Conditions can be applied only on the Design Space solid and are mirrored as well.

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Name

Direction

Constraint 1

x, y, z (=0)

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Step 4: Interface Creation

Interfaces have to be created for every functional surface - so every surface where a boundary condition is applied to. With this Tool an offset to the inside with the input “Non-Design Space Thickness” and an offset to the outside with the input “Machining Allowance” is created. The Offset Distance is expanding the Interface to the set value to create material on front faces.

  • One Interface is created on the same surface the force is applied to. Therefore, an Non-Design Space Thickness of 1 mm and a Machining Allowance of 1 mm is entered. Now select the surface and confirm the selection (MMB)

  • One Interface is created on all surfaces, except the top one, of the fixation Non-Design Space. Therefore, an Non-Design Space Thickness of 3 mm and a Machining Allowance of 2 mm is entered. Now select the surfaces and confirm the selection (MMB).

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Step 5: Definition of Events (load cases)

The next steps are defined in the Studies area.

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  • Active in Event1: Force-Moment 1 and Constraint 1

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Step 6: Definition of optimisation parameters

The optimisation parameters are selected in the Studies Area as well.

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Don’t forget to save the project!

Step 7: Starting the optimisation and visualizing the results

If all data is correct, the optimisation can be started and tracked in the Post Processing. The Analysis Readiness function checks if all information is provided and the optimisation can start.

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You can check the status of the optimisation in the GD Status and get more information on Warning and Error messages. This can be done directly in the Post-Processing as well as in the Studies tab for an optimisation that has already run.

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Step 8: Visualization of Stresses, Displacements & Mass

The legend can be influenced in different ways. You can add and reduce the stress/displacement steps, enlarge different steps and set new minimum and maximum values. The picture below shows the stress distributionwith a scale spectrum from 0 to 2 times the stress goal, which is a good fit for all optimisations. This displays the even distribution of the selected stress goal with the colour range of green and critical points are viewable in red.

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View file
nameBridge_2023-3.7z

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