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🧩 Fusion 360 – Cloud 3D Modeling & Simulation

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🧩 Fusion 360 – Cloud 3D Modeling & Simulation

Fusion 360: Cloud-Based 3D Design and Mechanical Modeling

Course Code: 2052-MECH

Engineering Office for Technology and Software Services Academy

πŸ“˜ Course Overview

This course provides a solid foundation in Fusion 360, focusing on cloud-based 3D design, parametric modeling, and mechanical simulation. Participants will gain practical experience in creating assemblies, running stress analyses, and preparing technical drawings.

🎯 Target Audience

  • Mechanical Engineers

  • Product Designers

  • Enthusiasts of 3D Modeling and CAD

  • Engineering Students

πŸ•’ Course Duration

  • 4 Weeks (12 sessions, 3 sessions/week)

  • 2 hours per session

  • Total: 24 Hours

βœ… Course Objectives

  • Master the use of Fusion 360 for cloud-based design

  • Build complex and parametric 3D models

  • Perform mechanical simulations and stress analysis

  • Collaborate, review, and present 3D designs efficiently

πŸ“š Course Modules

Unit 1: Introduction to Fusion 360 (Week 1)

  • Overview of the Fusion 360 interface

  • Creating and managing an Autodesk cloud account

  • Cloud storage and file management

  • Importing/exporting various file types

  • Setting up projects and synchronizing data

Unit 2: 3D Modeling Techniques (Week 2)

  • Creating basic and advanced shapes

  • Core modeling tools: Extrude, Revolve, Sweep, Loft

  • Parametric Modeling techniques for design flexibility

  • Working with assemblies: joints, motion links, constraints

Unit 3: Design and Mechanical Simulation (Week 3)

  • Designing mechanical components and parts

  • Performing stress and deformation analysis

  • Dynamic simulations of motion and forces

  • Creating technical drawings and manufacturing documentation

Unit 4: Collaboration & Cloud Sharing (Week 4)

  • Real-time collaborative design via the cloud

  • Sharing models and conducting design reviews

  • Creating 3D presentation views and exploded assemblies

  • Exporting designs for 3D printing and manufacturing

πŸ§ͺ Practical Projects

  • Design a consumer product (e.g. furniture, device casing)

  • Simulate the mechanical movement of a gear or linkage

  • Prepare detailed technical drawings for manufacturing

  • Export and prepare a part for 3D printing

🧰 Required Tools & Software

  • A computer with internet access

  • Latest version of Fusion 360

  • Free Autodesk account for cloud access

πŸŽ“ Certification & Learning Outcomes

Certificate of Completion will be awarded.
By the end of this course, learners will:

  • Develop professional 3D CAD models using Fusion 360

  • Simulate and analyze mechanical behaviors and constraints

  • Collaborate on projects using Autodesk’s cloud platform

  • Prepare design documentation for fabrication and presentation

Β 

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What Will You Learn?

  • 🎯 What You Will Learn:
  • πŸ”§ Module 1: Introduction to Fusion 360
  • Overview of cloud-based CAD and Fusion 360 interface
  • Project creation, data management, and collaboration tools
  • Difference between design, render, simulation, and CAM workspaces
  • Saving projects to the cloud and using version control
  • πŸ“ Module 2: 3D Parametric Modeling
  • Sketching fundamentals: constraints, dimensions, geometric relations
  • Creating and editing solid features: extrude, revolve, loft, sweep
  • Construction geometry and parametric design
  • Working with components, bodies, and assemblies
  • Joints, motion links, and assembly simulation
  • 🧰 Module 3: Surface and Mesh Modeling
  • Creating and editing surfaces
  • Sculpting complex organic shapes using T-splines
  • Converting mesh to solid models (reverse engineering)
  • πŸ—οΈ Module 4: Design for Manufacturing (DfM)
  • 3D printing prep: STL export, checking wall thickness, orientation
  • Sheet metal design tools and best practices
  • Preparing models for CNC machining (CAM basics)
  • Working with design constraints for manufacturability
  • πŸ§ͺ Module 5: Simulation and Analysis
  • Types of simulation: Static Stress, Modal, Thermal, Buckling
  • Assigning materials, constraints, and loads
  • Mesh generation and refinement
  • Interpreting results: stress concentration, displacement, factor of safety
  • Iterating and optimizing your design
  • 🎨 Module 6: Rendering and Animation
  • Creating photorealistic renders using cloud rendering
  • Applying materials, lighting, environments
  • Creating exploded views and motion animations
  • πŸ“‚ Final Project: Design + Simulate + Prepare for Manufacturing
  • Design a mechanical part or assembly
  • Perform structural/thermal simulation
  • Create a professional drawing, rendering, and CAM-ready file
  • Document your design intent and validate it through simulation

Course Content

🧩 Fusion 360 – Cloud 3D Modeling & Simulation

  • Unit 1: Introduction to Fusion 360 (Week 1)
  • Unit 2: 3D Modeling Techniques (Week 2)
  • Unit 3: Design and Mechanical Simulation (Week 3)
  • Unit 4: Collaboration & Cloud Sharing (Week 4)

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