In this project, you will be learning to set up a three-point bending of an iPhone for various positions of loading using ANSYS Workbench. This project will concentrate on the core technical aspects such as the effect of the choice of material, connections, meshing, boundary conditions, and the various results which are to be obtained and analysed such the Equivalent von-mises stress, Equivalent von-mises strain, the total deformation, the use of fatigue tool to find out the life of the component, etc. The project will also concentrate on the various effects of the S-N curve defined for various materials along with the number of cycles for fatigue loading.
Step 1 - Importing Geometry
Step 2 - Mesh Generation
Step 3 - Apply Boundary Conditions and Run the Simulation
Step 4 - Post Processing the Results
In this project, you will work on an iPhone bending setup and determine the effect of bending on the various positions. You will do the following in this project,
You will import the given CAD model into Ansys workbench and fix the CAD if there are any issues
Create a S-N curve for a particular material
Assign proper materials to the bodies and generate mesh to the Whole model.
Create proper contacts and joints between the models. Assign proper boundary conditions to the model and run the simulation
Requesting and post-processing the results.
In this project, you will learn how the static structural analysis system in ANSYS Workbench works and set up the case for bending of an iPhone. This is similar to that of three-point bending. The given CAD model is imported and fixed for any errors. Material data is imported and an S-N curve is provided so as to obtain the life result. The model is meshed and the required bodies are changed to rigid behaviour. The appropriate contacts for the simulation are set and the required boundary conditions are employed. The analysis settings option is manipulated and the required value for the time steps are provided. The model is simulated for various positions of the pushing fingers and the damage incurred in the model is evaluated. The results are requested and it is generated as a report for further applications.
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