Autodesk - Engineering Design Process with Autodesk Fusion 360
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Engineering Design Process with Autodesk Fusion 360 at Coursera Overview
Duration | 15 hours |
Start from | Start Now |
Total fee | Free |
Mode of learning | Online |
Difficulty level | Advanced |
Official Website | Explore Free Course  |
Credential | Certificate |
Engineering Design Process with Autodesk Fusion 360 at Coursera Highlights
- This Course Plus the Full Specialization.
- Shareable Certificates.
- Graded Programming Assignments.
Engineering Design Process with Autodesk Fusion 360 at Coursera Course details
- This course provides a deeper exploration of mechanical assemblies and simulation, which are key engineering features of the design and manufacturing process. The foundation of engineering design is exploration and iteration. Design is rarely a perfectly linear and straightforward process. In this course, we'll explore mechanical assembly design and simulation, focusing on testing and improving design components and performance. As we move through design assumptions, testing, and refining design ideas, we'll come closer to a final design, while developing a deeper knowledge in Autodesk® Fusion 360? for simulating and analyzing product functionality.
- After completing this course, you will be able to:
- ? Describe the engineering design process and workflow in Fusion 360.
- ? Summarize the trends that are influencing the design industry.
- ? Demonstrate knowledge and skills in more advanced Fusion 360 CAD and simulation skills
Engineering Design Process with Autodesk Fusion 360 at Coursera Curriculum
Design Optimization
Course overview
Get the software
Fusion 360 user interface update overview
Week 1 overview
Measuring mass properties
Adjusting parametric features
Creating parametric features
Creating a distributed design
Making the component tray mounting points
Combining the airframe and mounting points
Creating additional airframe structure
Removing unnecessary airframe mass
Basic component tray creation
Making component holding features
Locating the flight controller
Creating the component tray mounting holes
Creating the component tray cable passages
Creating battery mounting features
Creating a hex nut recess
Practice exercise 1 video introduction
Practice 1 exercise solution
Practice exercise 2 video introduction
Practice exercise 2 solution
Practice exercise 3 video introduction
Practice exercise 3 solution
Design optimization resources
About the discussion forum
Online learning communities and social media
Practice exercise 1 instructions
Practice exercise 2 instructions
Practice exercise 3 instructions
Week 1 challenge exercise
Pre-course questions
Week 1 quiz
Design Validation
Week 2 overview
Creating a static simulation study
Adding simulation constraints and loads
Generating a simulation mesh
View simulation results
Refine a mesh simulation
Use direct modeling tools
Creating a zip tie holding feature
Creating a battery lead hold down
Refining the airframe
Analyzing the design
Practice exercise 1 video introduction
Practice exercise 1 solution
Practice exercise 2 video introduction
Practice exercise 2 solution
Practice exercise 3 video introduction
Practice exercise 3 solution
Design validation resources
Practice exercise 1 instructions
Practice exercise 2 instructions
Practice exercise 3 instructions
Week 2 challenge exercise
Week 2 quiz
Assembly Motion
Week 3 overview
Creating assembly motion
Limiting component motion
Analyzing solid component action
Set a joint position
Creating an animation of assembly motion
Detailing multiple moving components
Creating advanced assembly motion
Practice exercise 1 video introduction
Practice exercise 1 solution
Practice exercise 2 video introduction
Practice exercise 2 solution
Practice exercise 3 video introduction
Practice exercise 3 solution
Assembly motion resources
Practice exercise 1 instructions
Practice exercise 2 instructions
Practice exercise 3 instructions
Week 3 challenge exercise
Week 3 quiz
Camera Gimbal Design Integration
Week 4 overview
Adding a camera to the design
Copying imported geometry
Creating surface bodies
Creating solid bodies from surfaces
Creating a holder for the video transmit module
Refining the airframe
Reducing the component tray mass
Save for 3D printing
Practice exercise 1 video introduction
Practice exercise 1 solution
Practice exercise 2 video introduction
Practice exercise 2 solution
Practice exercise 3 video introduction
Practice exercise 3 solution
Camera Gimbal Design Integration resources
Practice exercise 1 instructions
Practice exercise 2 instructions
Practice exercise 3 instructions
Week 4 challenge exercise
Challenge 1
Challenge 2
Challenge 3
Week 4 quiz
Course assessment
Engineering Design Process with Autodesk Fusion 360 at Coursera Admission Process
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