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Switch Bezel Design Using Catia v5

In this project, you will design Switch Bezel and other Plastic Automotive Interior Trims using Catia v5. Along with that, you will get an introduction to Design Overview in the Automotive Industry, Plastic In Automotive Industry, and Injection molding. You will be also learning Catia software(Sketcher, Part, Generative Shape Design and Drafting Workbench) from scratch.

Mechanical Engineering
Automotive Engineering

Duration :

1 month

Project Fees :

INR 30,000

Benefits of this Project

What will you do in this project?

Step 1 - Class B creation

Step 2 - Class C creation

Step 3 - Converting close surface into solid body

Step 4 - Performing Draft Analysis

In this project, you will design Switch Bezel from Class-A input using Catia v5. You will do the following in this project,

Will check whether the Class A faces that intersected will clear the direction based on the tooling axis.
Later we will start working on the Draft Analysis tool to check whether our tooling direction clears the path for easy removal of material from the tool.
Class B creation using extract, untrim, extrapolate and offset tools from Generative Shape Design Workbench.
Class C creation using sweep command.
At the final stage, you will convert it into a solid inside part workbench and perform Draft Analysis.

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Showing 1 of 3 projects

Project Highlights

This project is an advanced level project

This project is great for undergraduate students, M.Tech, or MS students, Working professionals who are interested in Catia/Plastic design field.
If you are a working professional, this project will be helpful to learn, Boolean, Advance Surface tools, Drafting tools, designing of various Plastic Interior Trims, and Draft Analysis.
You will learn to design complex shapes using surface and part tool.

Pre-requisites

Work with Multiple Tools

Switch Bezel Design Using Catia v5

In this project, you will be designing a Switch Bezel using Catia v5. You will receive input Class A Surface. You need to decide which direction we need to eject the tool based on the component design. Later we will check whether all faces that intersected will clear the direction based on the tooling axis. Later we will start working on the Draft Analysis tool to check if our tooling direction clears the path for easy removal of material from the tool. After that, we will go this class B creation using extract, untrim, extrapolate, and offset tools from surface followed by class C creation using sweep command. At the final stage, we will convert the closed surface into solid in part workbench. You will be also learning plastic features like screw bose, ribs, dog house, etc.

Apart from that, you will be also learning design Overview in Automotive Industry & Plastic In Automotive Industry, Injection molding, and injection mold nomenclature.

You will be also learning Catia v5 software from scratch. This will include Sketcher Workbench, Part Workbench, Boolean Operations, Drafting Workbench, Surface Design Workbench, and Core Cavity Design.