2. The generation, working and analysis of STL files. 3. Building complex geometries, printing and post-processing techniques. Course Outcome: The student will be able to: 1. Demonstrate the working principles of Additive Manufacturing. 2. Design complex / creative models ready for 3D printing. 3. Develop STL file for CAD models with appropriate support structures and Orientation 4. Build complex engineering assemblies in plastic material with minimum build-time 5. Evaluate the process parameters of AM machine to improve the quality of the parts Produced 6. Model and fabricate working models using AM processes. List of Experiments 1. Generating and Working with STL files from the CAD Models. 2. Designing of complex geometries and generating STL files from CAD Data. 3. Modeling and 3D Printing of Engine components. 4. Modeling and 3D Printing of navigation components 5. Modeling and 3D Printing mechanical Joint. 6. Modeling and 3D Printing of Impeller. 7. Designing and 3D printing of Intricate shapes for medical applications. 8. Processing the CAD data in Catalyst and CURA or any slicing software. 9. Simulation in Catalyst Software for optimizing build-time and material consumption. 10. 3D printing of machine components using 3D Scanning and re-modeling. 11. Evaluating the quality of the 3D printed part in terms of surface finish and dimensional accuracy. 12. Evaluating the fabricated part for its suitability for a given application. Total Lectures 30 Hours 5th September 2020 Recommended by Board of Studies 12th September 2020 Approved by Academic Council Course ADVANCED PRODUCT LIFE CYCLE MANAGEMENT L T P C code AND AUTOMATION 20ME3005 3 0 0 3 Course Objectives: Impart knowledge on: 1. Fundamentals and principles of Automation. 2. Concepts and various strategies of Product Life Cycle Management. 3. The product design, simulation, product building and product configuration. Course Outcomes: The student will be able to: 1. Apply the concept of New Product Development and its structuring. 2. Analyze the virtual product development and model analysis. 3. Develop New product development, product structure and supporting systems. 4. Explain various strategies and technologies adapted in industrial automation. 5. Select appropriate evaluation methods used in the automation. 6. Apply modern tools like AI, ANN and Fuzzy logics in the building of automation systems. Module: 1 AUTOMATED MANUFACTURING SYSTEMS 8 Hours Automation in Production System, Principles and Strategies of Automation, Basic Elements of an Automated System, Advanced Automation Functions, Levels of Automations, introduction to automation productivity, Manufacturing Cells, GT and Cellular Manufacturing, FMS, FMS and its Planning and Implementation Overview of Material Handling -Rotary feeders, oscillating force feeder, vibratory feeder, elevator type and Centrifugal type feeders, Principles and Design
MECHANICAL ENGINEERING (2020)
