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Goal of this tutorial
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In this case there are three parts that are to be consolidated, one excluded part and one part that is to be retained.
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Next some help geometries are created that will be subtracted from the initial Design Space. For these steps the Design Space is hidden.
At first we need to define regions where accessibility is needed
Therefore we use , the split tool with the offset function and an offset a value of 3 mm is used.
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After this the Access Regions based on the cells can be created.
Therefore, the Access Region Tool in the Optimisation Tools is activated.
A sufficient extrude Distance is entered and the face ofthe of the created cells is chosen to create the according Access Region.
It’s recommended to choose a scaling factor for the Access Regions to have a little bit extra space for the assembly work later on (like see 1.1).
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The inner surface of the Access Region is defeatured to create one filled volume.
To ensure that there is also some enough free space on the other side, the Push/Pull Tool can be used. Drag the surface 20 mm in the positive y-direction.
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The Bracket is subtracted from the Access Region to ensure that the Non-Design Space split cell isn’t Part of the Access Region solid.
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With the same technique all Access Regions can be created. The result looks like the picture below.
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Next the Clearance Region for the Sensor and the force input and the Access Region for the Sensor are defined.
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For the Sensor the Clearance Region Tool is used with an offset of 0.2 mm. All faces except the one that faces towards the attachment point is are chosen.
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For the force input the Clearance Region Tool is used with an offset of 3 mm to ensure that there is enough free space around it. Only the faces around the middle of it are chosen, because the rest is already covered with by the access regions. The force input is a Retained Volume in this optimisation. It should always be connected to the Design Space via Interfaces/Non-Design Spaces (including Machining Allowances).
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To create the Access Region for the Sensor, the Access Region Tool is used again - only but this time the “cross section” method is being used.
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Definition of Interfaces
Next the Interfaces are created where to obtain the exact Geometry after the optimisation is needed.
The Interfaces are chosen as shown in the picture with a thickness of 3 mm, a machining offset of 1 mm and an offset distance of 2 mm.
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Now your Assembly should look like this.:
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Note: Ensure that all your parts (Including the Design Space and the Access Regions) belong to the same assembly!
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Note: The prior defined Clearance Regions are automatically defined after you choose the corresponding Retained and Excluded Volumes.
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Interfaces
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Click Create Configuration and a GD Configuration will be created.
Click Apply Configuration and the tool executes all necessary Boolean Operations.
The final Design Space is created.
For the next steps hide all the other Parts of the Assembly except for the Design Space. You should also hide the Machining Allowances of the active Design Space to have better access to apply the loads & boundary conditions.
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You can see the included parts of the GD Configuration by double clicking the GD Configuration in the Model Browser.
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To get an overview of the GD Configuration right click on this and choose Edit. A window opens where you can see the chosen geometries included in the configuration.
You can also change your configuration here and apply it again to create a new Design Space with updated geometries.
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Create the material in the Materials editor and assign it to the Design Spaceand Retained Volume. It is possible to create a separate material for the Retained Volume. In this case the material behaviour is Isotropic.
The specific values needed are the Young's Modulus (72000 MPa), Poisson ratio (0.34) and Density (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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Note: Because we used a GD Configuration and defined the force input as retained part we can apply forces to the this part which will be transferred to the optimised geometry during the optimisation
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