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AIM Stress Due to Gravity - Numerical Solution & Results
ANSYS Google Analytics AIM Stress Due to Gravity - Panel Numerical Solution The following video will walk you through computing and analyzing your results. The solutions is automatically computed when you click the button to evaluate the results. Go to all ANSYS AIM Learning ModulesAIM I Beam - Geometry
ANSYS Google Analytics ANSYS AIM I Beam - Panel Geometry For this problem, we will import the geometry into AIM. The I-Beam itself was designed using a separate CAD software package, while the application surface area was created in ANSYS Design Modeler. We will import the geometry in ANSYS SpaceClaim format. ClickAIM I Beam - Pre-Analysis & Start-Up
ANSYS AIM I Beam - PanelANSYS Google Analytics Pre-Analysis & Start-Up Pre-Analysis You are told that experiments have been performed that confirm that the tip deflection under the load is approximately Exp Data.JPG Generally, in long, slender beams, the transverse displacement due to pure bending dominates when cAIM I Beam - Numerical Solution & Results
ANSYS Google Analytics ANSYS AIM I Beam - Panel Numerical Solution & Results Go to step 6: Verification and Validation Go to all ANSYS AIM Learning ModulesAIM Stress Due to Gravity - Physics Setup
ANSYS Google Analytics AIM Stress Due to Gravity - Panel Physics Setup The following video will walk you through applying all of the required forces and boundary conditions to your model. Go to Step 5: Numerical Solution & Results Go to all ANSYS AIM Learning ModulesBike Crank AIM- Numerical Results
ANSYS Google Analytics Bike Crank AIM Tutorial- Panel Numerical Results The following video shows how to plot the deformed shape and use it to check if the displacement constraints have been applied correctly. Summary of steps in the above video: In the Results main window, under the Objects tab, Click Add nearBike Crank AIM - Verification & Validation
ANSYS Google Analytics Bike Crank AIM Tutorial- Panel Verification & Validation Please Note: Although this section is using ANSYS Workbench, the point of this video is to make sure our results do, in fact, make sense and can be verified. This video was taken from a previous tutorial using Workbench. Make sure to compBike Crank AIM - Mesh
ANSYS Google Analytics Bike Crank AIM Tutorial- Panel Mesh The video below demonstrates the steps to mesh the geometry using Hexahedral elements which look like boxes. Hexahedral (or hex) elements yield higher accuracy compared with the default tetrahedral (or tet) elements for the same number of nodes. Summary oBike Crank AIM - Physics Setup
ANSYS Google Analytics Bike Crank AIM Tutorial- Panel Physics Setup In the following video, we will begin the physics setup in our simulation. In AIM, we must first assign the region of which the physics simulation is to be based on. We will also create and assign the material to our bike crank. Be sure to go back toBike Crank AIM - Geometry
ANSYS Google Analytics Bike Crank AIM Tutorial- Panel Geometry The geometry has been created in SolidWorks and saved as a Parasolid file. Download the Parasolid file. https://confluence.cornell.edu/download/attachments/236850564/crank_assembly.x_t?version=1&modificationDate=1384438680000&api=v2 The following vide