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Goal of this tutorial

  • Learn how to activate the Support Reduction function

  • Explore the impact of Support Reduction to the design

  • Usage of different Support Reduction modes

Project Data

Training:

Relevant data for this tutorial:

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

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Material Assignment

  • Create the material in the Materials editor and assign it to the Design Space

  • The specific values needed are the Young's Modulus (72 000 MPa) and the Poisson ratio (0.34). The density is set to 2.7e-6 kg/mm3.

  • The Tension Strength is the maximum allowable stress for the material and is set to 460 MPa.

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Go to the Loads & Boundary Condition Tool to enter the loads and fixations. Displacements, Forces, Moments, Gravity and Pressure Loads can be applied using different selection options.

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Name

Direction

Constraint 1

x, y, z (=0)

Therefore, the Loads & Boundary Condition Tool is needed.

Under Displacement Constraints a “clamped” constraint can be chosen, which locks translations in all three directions. On the left side of the Tool the relevant geometry choice can be selected. In this case the inner surface of the mounting hole is selected to attach the constraint.

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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.

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The next steps are defined in the Studiesarea.

All boundary conditions must be assigned to the specific load cases, which are defined as Events. The number of Events can be changed by adding/deleting Eventsto the GD Scenario. The assignment of the boundary conditions to the Eventscan be made in the Loads & Constrains Window. The already created loads and constraints that concern the Design Space are listed in this window and can be activated for each Eventindividually.

  • Event1: Force-Moment 1, Force-Moment 2, Constraint 1

  • Event2: Force-Moment 3, Constraint 1

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

Step 6: Activating Support Reduction (Design Rules: AM)

For the Support Reduction the global Z-direction is always the build direction.

  • Exception: If symmetry is activated, the Z-direction of the symmetry coordinate system is the build direction.

  • If Support Reduction is used in combination with Anisotropic Material Behaviour, the X-direction of the Material Coordinate System should be aligned with the global Z-direction.

Three different strategies can be used which are described more detailed here.

For the strategies Reactive and Active the Intensity can be influenced as an additional option. The default value for the intensity is 5.

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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.

All result iterations are displayed as soon as they are available. Furthermore, you are able to stop the optimisation in this selection area. However, a Restart is not directly possible.

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Step 8: Visualization of Failure Criteria, Displacements etc.

  • Inside the Post Processing the Stresses, Failure Criteria, the Displacements, the Optimisation Achievement index and the volume/mass are visible for all iterations

  • The Scale can be influenced individually

  • With the buttons in the bottom bar it is possible to switch between the Nominal-, Print- and Smooth-Geometry. All of them can be exported as an STL-file or transferred directly back to the Pre Processing as an NURBS CAD-Geometry.

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Influence of Support Reduction Strategies

The Support Reduction function creates print-ready geometries with a perfect ratio between support reduction and part performance. It reduces the required amount of support structure for the manufacturing process with nearly the same mechanical performance as without Support Reduction (Base-Design).

In the picture below the left side shows the Base-Design without Support Reduction and the right side the design with Support Reduction (reactive strategy). The area where the most support structure is needed is reshaped in such a way that the support structure is reduced significantly.

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The passive Support Reduction reduces the required support structure about 28% at 2% more mass.

The Support Reduction Strategies Reactive and Active with a Support Reduction Intensity value of 5 reduce the required support structure even more - 78% of the initial support structure can be saved.

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The whole MSC Apex Generative Design project with all results can be downloaded here:

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