Courses
120 Hours TATA Certified Courses
Product Design & Development
• Overview of Product Design and Development Process
• Market Research & Competitive Strategy,
• Demand Pattern for the product and Current trends
• Benchmarking with competitors’ products
• Customer Needs Requirements
• Quality Function Deployment
• Define Product Specifications & Success Criteria
• Monitoring tools and Techniques
• Product Architecture
• Develop a Cost Model of the Product
• Making Trade-Offs Wherever Necessary
• Collection of ideas and Selection criteria
• Screening new products (Inventions & Innovation)
• Creativity and problem-solving Methods
• Concept Design, Selection & Testing
• Understanding of Industrial Design
• Design Conceptualization
• Ergonomics & Perceived Quality
• Detail Design and Engineering
• Bill of Material
• Material Selection & Design Considerations
• Concurrent Engineering
• Manufacturability (Metals, Plastics & Composites) etc.
• DFM, DFA, DFMEA, PFMEA.
• Prototyping, Verification & Validation
• Program Management
• Gateway Process of Product Development
• Product Lifecycle Management
• Case Studies of Japanese & European OEMs.
• Importance of Service (Maintenance& Repair)
• Product Up-gradation,
• Change & Obsolescence Management
Design Engineering
• Concept & Importance of Design Thinking
• Brainstorming
• IDEA Generation & Refinement
• Divergence and Convergence of Design Thinking Process
• Field Work Research
• Concept Generation
• Concept Selection and Testing
• Product Design and Development (PDD)
• Introduction to Design Tools (Computer Aided Design Software)
• Concept Creation and 3D Modelling
• Detail Design & Engineering
• Design Considerations (Plastics, Sheet Metal, Forgings & Castings)
• Design for Assembly and Design for Manufacturing
• Design failure mode and effect analysis (DFMEA)
• Kinematic Analysis
• Overview of Design Validation
• Product Drawing Creation,
• Geometric Dimensioning and Tolerancing (GD&T)
• Bill of Materials (BOM)
PLM Application Engineering
•Introduction to Finite Element Analysis (FEA).
• Why FEA?
• Application of FEA
• Advantages of FEA in different fields
• Basic Equation
• Introduction to meshing
• Finite Element Analysis Process
• Types of Analysis
• Concept of Pre-processing,
• Concept of Solving
• Concept of Post Processing
• Interpretation of Results
• FEA Tools by using computer aided engineering tools
Product Verification Analysis
• Introduction to Finite Element Analysis (FEA).
• Why FEA?
• Application of FEA
• Advantages of FEA in different fields
• Basic Equation
• Introduction to meshing
• Finite Element Analysis Process
• Types of Analysis
• Concept of Pre-processing,
• Concept of Solving
• Concept of Post Processing
• Interpretation of Results
• FEA Tools by using computer aided engineering tools
Electric Vehicle Repair & Maintenance
• Electric vehicle Architecture
• Important components of EV
• Sizing of components
• Motors
• Motor Controller
• Battery Pack
• Battery Management System
• Charging System
• Battery Swapping Concept
• Regenerative Braking
• EV Diagnostics
• EV Repair and Maintenance
• Latest Trends
Mechatronics & IIoT Engineering
•Introduction to Mechatronics
• Mechatronics components and systems
• Block Diagram Representation
• Data Acquisition
• Microcontroller System
• Modelling and Analysis of Mechatronics System
• Introduction to IoT (Internet of Things)
• Electronics for the Internet of Things
• Software for the Internet of Things
• IoT System Architectures (Theory)
• Introduction to ISO Layers.
• Protocols [TCP/IP, MQTT, HTTP]
• Communication Modes
• Introduction to IoT cloud platforms
• Sensors and Peripherals
• IoT Applications
• Advancements
Advanced Industrial Robotics
• Introduction to Robot
• Types of Robots and their performance capabilities
• Coordinate system
• Important Components of Robots
• Robot Specific ation
• Kinematics of Robots
• Applications of Robot & Mounting Options
• Selecting Assembly Machines, Feeding and Transfer of parts (Types of Grippers)
• Applications of Robots in Manufacturing and Assembly, Sensors used in Robotics
• Product Design for Robotized Manufacturing
• Types of Assembly Line Robots
• Key Benefits of Robotic Line Over Traditional Include
• Robot Task Definition (RTD)
• Motion Trajectory Planning
• Robot Workspace & Robotic Work Cell
• Welding Robots & Benefits of Robot Arc Welding
• Problems for Robots in Arc Welding
• Off-Line Programming (Robotics)
• Material Handling Robots
• Robot Arm Kinematics
• Robot Safety Instructions & Workspace and Safety Zone
• Working of Robot: Power on the Robot, Axis Limits, Operation Modes, HMI, PLC
• Jogging the Robot
• Robot Online Programming
Advanced Manufacturing Engineering
• Introduction to Industry 4.0
• Manufacturing Processes
• Industrial Robotics
• Advanced Robotic Programming
• Robotic Applications
• Robotic Arc Welding
• Advanced CNC Programming
• Advanced Additive Manufacturing
• Design for Additive Manufacturing
• Manufacturing of modified Engineering Components
Machine Tool Operator/ CNC Operator
• Overview of Manufacturing Processes
• Working Principle, Milling Machine & CNC Machine
• Types of CNC Machine control units
• Advantages & Disadvantages
• CNC Operations
• Tools used for CNC operations
• Difference Between CNC Turning and VMC Machine
• CNC Machining Centre and Specifications
• Machine Coordinate System
• Basics of Programming
• Table of Important G codes & its explanations
• Basic M Codes used in Program
• Cutter Radius Compensation
• Multiple Repetitive CAN Cycle
• VMC Tools & Offset settings
• Advanced Additive Manufacturing
• Design for Additive Manufacturing