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Course Highlights

This course covers the foundations of 3D Printing technologies, materials, and design processes. Learners gain hands-on exposure to modeling in Fusion 360 and Blender, understand slicing software, post-processing techniques, and execute real-time fabrication projects including car parts and articulated structures using FDM technology.

  • Skill Type

  • Course Duration

  • Domain

  • GOI Incentive applicable

  • Course Category

  • Nasscom Assessment

  • Placement Assistance

  • Certificate Earned

  • Content Alignment Type

  • NOS Details

  • Mode of Delivery

Course Details

Learning Objectives

What will you learn in 3D Printing and Design?

  • Understand fundamentals of 3D Printing technologies and materials
  • Design and model products using Fusion 360 and Blender
  • Operate slicing software and configure 3D Printing processes
  • Apply post-processing methods to improve 3D Prints
  • Execute real-time fabrication projects and apply reverse engineering techniques
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Reasons to enrol

Why should you take 3D Printing and Design?

  • Gain complete knowledge of 3D Printing from design to fabrication
  • Hands-on training with Fusion 360, Blender, and 3D Printers
  • Real-time projects in automotive and articulated structures
  • Learn mass production and reverse engineering applications
  • Earn an industry-recognised certification in 3D Printing
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Ideal Participants

Who should take 3D Printing and Design?

  • Mechanical and design engineering students
  • Product designers and prototyping professionals
  • Robotics and manufacturing enthusiasts
  • Professionals seeking to upskill in additive manufacturing
  • Hobbyists and innovators in 3D modeling and printing
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Curriculum

Curriculum

Level 1 - Fundamentals of 3D Printing

  • History of 3D Printing
  • Introduction to 3D Printing Technologies and Materials
  • Additive vs Subtractive Manufacturing Techniques
  • FDM, FFF, SLA, DLP, and SLS Technologies
  • Types of Filaments and Metal-based 3D Printing Materials

Level 2 - Design, Modeling and Software

  • Introduction to Fusion 360
  • 2D Sketching and Design for 3D Printing
  • Topology Optimisation
  • Converting 2D Images into 3D Models
  • Material Design Concepts
  • 3D Printer Basics - FDM
  • Slice Software and Printer Settings
  • 3D Printing through Diagram Explanation
  • Post-processing Techniques
  • Blender for 3D Printing - Shortcuts, Rendering, and Design Tools

Level 3 - Real-time Applications and Projects: 2D Drawings to 3D Print

  • Designing and Printing a Car Wheel in Fusion 360 using FDM; Fabrication of Articulated Structures through FDM 3D Printing
  • Car Chassis, Steering and Roof Design and Fabrication
  • Reverse Engineering with 3D Scanning; Design Variations Achieved via 3D Printing
  • Materialistic Advancements and Applications
  • Product Assembly Techniques using 3D Printing
  • Mass Production and Reverse Engineering Techniques
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skills and tools

Tools you will learn in 3D Printing and Design:

Skills

  • 3D Printing Technologies (FDM, SLA, SLS, DLP)
  • 3D Modeling with Fusion 360 and Blender
  • Topology Optimisation
  • Filament and Material Selection
  • Post Processing Techniques
  • Reverse Engineering Applications

    • Tools

  • Fusion 360
  • Blender
  • 3D Printers (FDM, SLA, SLS)
  • Slicing Software
  • 3D Scanners
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