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Simulation of Machining with Planar using Ansys Workbench

In this project, you will learn how to setup the case for machining with the planar application and how to setup the case for explicit analysis in Ansys workbench. This project focuses on learning the important input definitions required for Explicit analysis system in Ansys workbench, running the simulation and post-processing the results obtained.

  • Mechanical Engineering

duration
Duration :

1 month

projectfees
Project Fees :

INR 12,000

Benefits of this Project

In this project, you will learn how to setup the case for machining with the planar application and how to setup the case for explicit analysis in Ansys workbench. This project focuses on learning the important input definitions required for Explicit analysis system in Ansys workbench, running the simulation and post-processing the results obtained.

What will you do in this project?

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 machining with planar setup and determine the effect of velocity on the work-piece. 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

  • Assign proper materials to the bodies and generate mesh to the work-piece and the tool

  • Assign proper boundary conditions to the model and run the simulation

  • Requesting and post-processing the results

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Showing 1 of 3 projects

Project Highlights

The project is an Beginner level project

Pre-requisites

Work with Multiple Tools

showcase

Simulation of Machining with Planar using ANSYS Workbench

In this project, you will learn about explicit analysis system in ANSYS and setup the case of machining with planar. You will learn the difference between the implicit and explicit simulations and import the geometry in Ansys workbench. A suitable material is assigned for the bodies. The model is meshed especially a fine mesh method is provided to the work-piece and tetra meshing is carried out to the tool. Once the meshing is done, you will set the boundary conditions for the model. You will go through the important parameters available in the analysis settings and enter the value for energy error values. You will run the simulation for different tool speeds and look into the deformation occurred in the work-piece. You will request the temperature results and compare the difference between them. You will create a report of all your findings and present it.