Assemble Parts and Components in Fusion 360 from Udemy

Mechanical assembly is a fundamental process that involves piecing together individual parts and components to create a complete product or execute a specific function. This process is essential in various industries such as manufacturing, automotive, aerospace, and engineering.

To become proficient in mechanical assembly:

• One needs to have a solid understanding of modeling

• In-context and top-down assembly,

• The ability to turn solid bodies into components.

In addition, creating sub-assemblies, importing non-native 3D files, enabling contact sets to prevent component interference, and creating joint limits are also crucial skills.

The Fusion 360 course aims to equip learners with all these skills and more.

The course provides highly detailed instructions that help learners follow along with ease, including exercise files included in every lecture. Upon completion of the course, learners will receive both a Udemy Certificate of Completion and an Autodesk Certificate of Course Completion.

One of the main takeaways from the course is the importance of sketches and constraints in component creation. These fundamental concepts are critical in understanding how to explore complex mechanisms and assemblies confidently. In summary, the Fusion 360 course is an excellent resource for anyone seeking to enhance their skills in mechanical assembly and acquire new knowledge in the field.

What's inside

Learning objective

In this course, students will be very comfortable in turning parts and components into assemblies from the ground up.

Syllabus

Introduction

Download Fusion 360 here.
https://www.anrdoezrs.net/links/8134627/type/dlg/https://www.autodesk.com/products/fusion-360/free-trial

What you need to know

Using the exercise files

Module 1 Simple parts

01 Extruding the slide key

02 Modeling the special key

03 Revolving the set screw

Module 2 Creating the vise assembly

04 Extruding the base

05 Detailing the base

06 Duplicating the foot

07 Creating an in-context part

08 Projecting the slide jaw

09 Threading the large hole

10 Threading the screw holes

Module 3 Vise Screw Assembly

11 Revolving the vise screw

12 Detailing the vise screw

13 Modeling the collar

Module 4 Handle Assembly

14 Modeling the rod and ball

15 Importing an non-native Fusion 360 file

16 Subtracting components

17 Splitting bodies

Module 5 Putting it all together

18 The joint origin

19 Jaw plate and flat screw

20 Slide key and set screw

21 Special key, vise screw and handle

22 Motion link and contact sets

23 Performing an interference check

Conclusion

Bonus Lecture

Activities

Be better prepared before your course. Deepen your understanding during and after it. Supplement your coursework and achieve mastery of the topics covered in Assemble Parts and Components in Fusion 360 with these activities:

Review Sketching and Constraints

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Reinforce your understanding of sketching and constraints, which are fundamental to creating parts and assemblies in Fusion 360.

Show steps

Review tutorials on sketching techniques.
Practice creating sketches with various constraints.
Replicate simple parts from images using sketches.

Read 'Fusion 360 for Makers'

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Supplement your learning with a book that provides practical examples and projects using Fusion 360.

View Make: The Complete Guide to Tinkercad: 17... on Amazon

Show steps

Obtain a copy of 'Fusion 360 for Makers'.
Work through the example projects in the book.
Apply the techniques learned to your own designs.

Document Your Assembly Process

Show steps

Solidify your understanding by creating a video or written tutorial documenting your assembly process for a specific project.

Show steps

Choose an assembly project to document.
Record a video or write a step-by-step tutorial.
Explain the design decisions and assembly techniques used.
Share your tutorial with others and gather feedback.

Four other activities

Expand to see all activities and additional details

Show all seven activities

Replicate Existing Assemblies

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Improve your assembly skills by replicating existing mechanical assemblies from reference images or drawings.

Show steps

Find reference images or drawings of mechanical assemblies.
Identify the individual parts and their relationships.
Model the parts in Fusion 360.
Assemble the parts using joints and constraints.

Design and Assemble a Simple Machine

Show steps

Apply your knowledge by designing and assembling a simple machine, such as a gear system or a linkage mechanism.

Show steps

Choose a simple machine to design.
Create a detailed design with dimensions and specifications.
Model the individual parts in Fusion 360.
Assemble the parts using appropriate joints and constraints.
Test the assembly for functionality and interference.

Explore 'Product Design Using Fusion 360'

Show steps

Deepen your understanding of product design principles and manufacturing processes using Fusion 360.

View Putting Knowledge to Work on Amazon

Show steps

Obtain a copy of 'Product Design Using Fusion 360'.
Read the chapters on CAD, CAM, and CAE.
Experiment with the techniques described in the book.

Contribute to a Fusion 360 Project

Show steps

Enhance your skills by contributing to an open-source Fusion 360 project, such as a library of parts or a design tool.

Show steps

Find an open-source Fusion 360 project on platforms like GitHub.
Review the project's documentation and contribution guidelines.
Identify areas where you can contribute, such as modeling parts or fixing bugs.
Submit your contributions to the project.

Career center

Learners who complete Assemble Parts and Components in Fusion 360 will develop knowledge and skills that may be useful to these careers:

CAD Technician

A CAD Technician uses computer-aided design software to create technical drawings and models. This Fusion 360 course directly helps build a foundation for this career because it provides hands-on experience with Fusion 360 software. CAD Technicians need to be skilled in creating parts and components and assembling them accurately. The course's instruction on modeling, extruding, and revolving components are directly transferable to the daily tasks of a CAD Technician. Moreover, the course offers practice in topics such as turning solid bodies into components and creating sub-assemblies that are beneficial to the skillset of a CAD Technician. A CAD Technician should take this course because of its emphasis on enabling contact sets to prevent component interference and performing interference checks.

See salaries and explore the career path for CAD Technician

Mechanical Engineer

The role of Mechanical Engineer involves designing, developing, and testing mechanical devices and systems. This Fusion 360 course directly helps build a foundation for this career because mechanical engineers must be proficient in creating parts and components, and then assembling them into functional products. Specifically, the course's emphasis on modeling, in-context assembly, and turning solid bodies into components directly translates into the skills needed to design and prototype mechanical systems. Moreover, enabling contact sets to prevent component interference is a crucial skill for mechanical engineers who want to avoid errors. One who wants to become a Mechanical Engineer should take this course to create sub-assemblies, import non-native 3D files, and create joint limits.

See salaries and explore the career path for Mechanical Engineer

Design Engineer

A Design Engineer creates and develops new product designs. The Fusion 360 course helps build a foundation for this career because it offers direct training in the skills needed to design components and assemble parts. Design Engineers use software like Fusion 360 to create models and prototypes. The course's instruction on in-context and top-down assembly are crucial skills in this role, allowing Design Engineers to visualize and refine their designs in a virtual environment. Aspiring Design Engineers can also benefit from the course's lessons on importing non-native 3D files and creating joint limits to design complex and innovative products. Design Engineers should take this course because of its focus on turning solid bodies into components.

See salaries and explore the career path for Design Engineer

Product Development Engineer

Product Development Engineers are responsible for bringing new products to market, from initial concept to final production. This Fusion 360 course helps build a foundation for this career by providing hands-on experience in creating and assembling the components that make up a product. Product Development Engineers must be able to iterate on designs and ensure that all components fit together correctly, and the course’s content on turning solid bodies into components gives them skills to ensure that they can do so. The course's emphasis on importing non-native 3D files is also a key advantage. The course's instruction on enabling contact sets to prevent component interference is important for complex designs.

See salaries and explore the career path for Product Development Engineer

Product Designer

Product Designers are responsible for designing and developing new products, focusing on both aesthetics and functionality. This Fusion 360 course helps build a foundation for this career by providing hands-on experience in creating and assembling the components that make up a product. Skills in modeling, creating sub-assemblies, and understanding mechanical assembly are directly applicable to the product design process. Product Designers must be able to iterate on designs and ensure that all components fit together correctly. A Product Designer should take this course because of its emphasis on importing non-native 3D files and enabling contact sets to prevent component interference.

See salaries and explore the career path for Product Designer

Mechanical Drafter

Mechanical Drafters create technical drawings and plans for mechanical devices and systems. This Fusion 360 course provides a foundation in mechanical assembly, which is crucial for accurately representing how parts and components fit together in technical drawings. Mechanical Drafters need to be proficient in creating detailed models and understanding assembly processes. Mechanical Drafters will benefit from this course's focus on how to turn solid bodies into components. A Mechanical Drafter should take this course because of its emphasis on enabling contact sets to prevent component interference.

See salaries and explore the career path for Mechanical Drafter

Manufacturing Engineer

Manufacturing Engineers focus on improving manufacturing processes and ensuring efficient production. The Fusion 360 course helps build a foundation for this career by providing a practical understanding of how parts and components are assembled, which is essential for optimizing manufacturing workflows. Manufacturing Engineers need to understand how individual parts fit together to identify potential issues in the manufacturing process. The course's instruction on creating sub-assemblies and importing non-native 3D files are crucial in this role, allowing Manufacturing Engineers to work with diverse design formats and complex assemblies. A Manufacturing Engineer should take this course because of its emphasis on enabling contact sets to prevent component interference.

See salaries and explore the career path for Manufacturing Engineer

Engineering Technician

Engineering Technicians assist engineers in designing, developing, and testing mechanical systems. This Fusion 360 course provides a foundation in mechanical assembly, which is crucial for understanding how parts and components fit together. Engineering Technicians need to be proficient in creating detailed models and assembling parts. A valuable skill learned in this course is enabling contact sets to prevent component interference. Engineering Technicians should take this course because of its emphasis on turning solid bodies into components, which is beneficial for their jobs.

See salaries and explore the career path for Engineering Technician

Fixture Designer

A Fixture Designer creates specialized work-holding devices used in manufacturing. This Fusion 360 course provides a foundation in mechanical assembly, which is crucial for designing these complex fixtures. Because Fixture Designers must be proficient in creating detailed models, assembling parts, and ensuring that all components meet strict tolerances and performance requirements, the course's instruction on creating sub-assemblies helps build skills in designing complex tooling systems. A Fixture Designer should take this course because of its emphasis on enabling contact sets to prevent component interference.

See salaries and explore the career path for Fixture Designer

Automotive Engineer

Automotive Engineers design and develop vehicles and their components. The Fusion 360 course helps build a foundation for this career because it provides practical skills in mechanical assembly, which is essential for understanding how vehicles are constructed. Automotive Engineers must be proficient in creating detailed models, assembling parts, and ensuring that all components meet performance and safety standards. The course’s instruction on enabling contact sets to prevent component interference is also beneficial for designing complex automotive systems. An Automotive Engineer should take this course because it covers importing non-native 3D files.

See salaries and explore the career path for Automotive Engineer

Research and Development Engineer

Research and Development Engineers conduct research and develop new technologies and products. The Fusion 360 course helps build a foundation for this career by providing practical skills in mechanical assembly, which is essential for prototyping and testing new designs. Research and Development Engineers must be proficient in creating detailed models, assembling parts, and iterating on designs to meet specific performance criteria. The course's instruction on creating sub-assemblies also helps build skills in designing complex systems. A Research and Development Engineer should take this course because of its emphasis on enabling contact sets to prevent component interference.

See salaries and explore the career path for Research and Development Engineer

Tooling Engineer

Tooling Engineers design and develop the tools and fixtures used in manufacturing processes. This Fusion 360 course provides practical knowledge of mechanical assembly, which is crucial for understanding how tools and fixtures are constructed. Tooling Engineers must be proficient in creating detailed models, assembling parts, and ensuring that all components meet strict tolerances and performance requirements. The course’s instruction on creating sub-assemblies helps build skills in designing complex tooling systems. A Tooling Engineer should take this course if they need to import non-native 3D files. Turning solid bodies into components is another beneficial skill that they will learn.

See salaries and explore the career path for Tooling Engineer

Robotics Engineer

Robotics Engineers design, build, and program robots and robotic systems. This Fusion 360 course may be useful for aspiring Robotics Engineers because it provides a foundation in mechanical assembly, which is essential for constructing the physical components of robots. Robotics Engineers need to be proficient in creating parts, assembling them accurately, and ensuring that all components work together seamlessly. The course’s instruction on creating sub-assemblies and enabling contact sets to prevent component interference are also crucial skills in this field. One who wants to become a Robotics Engineer may take this course because it covers importing non-native 3D files.

See salaries and explore the career path for Robotics Engineer

Aerospace Engineer

Aerospace Engineers design aircraft, spacecraft, and related systems. This Fusion 360 course provides a foundation in mechanical assembly, which is crucial for designing and assembling the complex components of aerospace vehicles. Aerospace Engineers must be proficient in creating detailed models, understanding how parts fit together, and ensuring structural integrity. The course's instruction on stress analysis and simulation helps build skills in identifying potential issues in aerospace designs. An Aerospace Engineer should take this course because of its discussion on creating sub-assemblies.

See salaries and explore the career path for Aerospace Engineer

Manufacturing Technician

Manufacturing Technicians operate and maintain equipment used in manufacturing processes. This Fusion 360 course may be useful for Manufacturing Technicians wanting to gain a better understanding of how components are assembled, which can help them troubleshoot issues and perform maintenance tasks more effectively. Manufacturing Technicians need to understand how individual parts fit together and function as a whole. While not directly related to operation, understanding how enable contact sets to prevent component interference is beneficial. A Manufacturing Technician may take this course because it could improve their overall knowledge of manufacturing processes.

See salaries and explore the career path for Manufacturing Technician

Reading list

We've selected two books that we think will supplement your learning. Use these to develop background knowledge, enrich your coursework, and gain a deeper understanding of the topics covered in Assemble Parts and Components in Fusion 360.

Putting Knowledge to Work

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Offers a comprehensive overview of product design using Fusion 360, covering CAD, CAM, and CAE principles. It provides in-depth explanations of various design techniques and manufacturing processes. The book is suitable for intermediate to advanced users who want to expand their knowledge of product design. It serves as a valuable reference for understanding the entire product development lifecycle.

Putting Knowledge to Work

Paperback

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Putting Knowledge to Work

Kindle Edition

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Make: The Complete Guide to Tinkercad

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Provides a practical introduction to Fusion 360, focusing on real-world projects and applications. It covers the basics of 3D design, modeling, and assembly, making it a valuable resource for beginners. The book offers step-by-step instructions and clear explanations, helping learners grasp the fundamentals of Fusion 360. It is particularly useful for those who prefer a hands-on approach to learning.

Make: The Complete Guide to Tinkercad: 17 Projects...

Paperback

Assemble Parts and Components in Fusion 360

What's inside

Learning objective

Syllabus

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Activities

Career center

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