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Autodesk

There are many considerations that play a part in engineering a new product. Regardless of what that product is, there are fundamentals such as form, fit, and function when it comes to digital modeling. In this course, we lay the foundation to create any design and dive deep into topics about the control of the design. From assembly joints and joint limits to complex shapes using forms, rest assured that your design will be rock solid.

After completing this course you'll be able to:

- Create and drive a mechanical gear assembly.

- Create and modify a form-based design.

Read more

There are many considerations that play a part in engineering a new product. Regardless of what that product is, there are fundamentals such as form, fit, and function when it comes to digital modeling. In this course, we lay the foundation to create any design and dive deep into topics about the control of the design. From assembly joints and joint limits to complex shapes using forms, rest assured that your design will be rock solid.

After completing this course you'll be able to:

- Create and drive a mechanical gear assembly.

- Create and modify a form-based design.

- Use design tools for molded parts.

- Demonstrate proficiency in the setup and creation of a design.

Looking for Autodesk Fusion 360 certification prep courses? Check out additional learning resources to help you uplevel your skills: https://www.autodesk.com/learning

Enroll now

What's inside

Syllabus

The Basics of Modeling
In Week 1, we’ll cover the control and creation of sketches, construction geometry, and conversion into solid bodies. Understanding how to define and reuse sketch elements is a critical step in defining geometry that can be easily updated later to accommodate design changes.
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The Basics of Assemblies
In Week 2, we’ll talk about the creation, organization, and management of assemblies and components in Fusion 360. Replicate contacts and motion through the application of joints, motion links, and contacts and understand how best to begin a design for reuse while exploring the integration of off-the-shelf components and assembly management.
Exploring Design Tools for Production
In Week 3, we'll focus on the tools used to produce production-ready molded parts. Rest assured that design requirements will be met for production with features like adding draft, creating ribs, or detailing threads.
Creating complex designs with form tools
In Week 4, we’ll cover form tools as an option when creating complex designs. Form tools allow for a different design approach than the traditional sketch and feature creation by allowing you to explore shapes while pushing and pulling vertices, faces, and edges. Explore the basics of form creation and manipulation as well as advanced control and creation of designs with forms.

Good to know

Know what's good
, what to watch for
, and possible dealbreakers
Develops foundational skills in mechanical engineering and digital modeling, laying the groundwork for further learning
Provides guidance on defining and reusing sketch elements for efficient design updates
Covers tools and techniques for creating complex designs with forms, expanding design possibilities
Incorporates production-ready design principles, preparing learners for practical applications
Taught by Autodesk, a reputable software developer in the industry, providing credibility to the instruction

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Reviews summary

Fusion 360 for mechanical engineers

According to students, Fusion 360 for Mechanical Engineers is a largely positive course that provides a strong foundation in using Fusion 360 for mechanical engineering design. Learners say the well-structured course includes engaging assignments that clearly demonstrate the software's capabilities. The course is particularly helpful for those who want to learn about product design, rendering, and design analysis. Overall, learners say the course is worthwhile and highly recommend it to other mechanical engineers.
starts with the basics
"It's a very nicely designed course and definitely worth to spend time and learn."
"I really liked the first 2 weeks where they started with the very basic level of sketching then 3d drawings and then assembly"
unique and informative
"The final section on form modeling is unique - a lot of info to digest in a couple videos, but this type of info simply isn't available anywhere else."
engaging assignments
"The assignments are too good to clear the concept."
"The weekly assignments, having a consolidated assignment at the end of the week greatly helped me retain my knowledge."
difficult to understand
"Week 3 is quite confusing."
"For week 4 File Car Hood was not provided due to which Form Manipulation topic was very difficult to understand"
"the form body still hard to do we need a complete model formed from scratch and follow along with the instructor to understand how to start with such designs"
some materials unavailable
"Car Hood Model for Week 4 is not included."
"In week 4, there are some missing materials in the supplied file."

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 Modeling and Design for Mechanical Engineers with Autodesk Fusion 360 with these activities:
Review the Basics of Sketching and Construction Geometry
Review the basics of sketching and construction geometry. This will help you refresh your knowledge of these essential skills.
Browse courses on Sketching
Show steps
  • Review the key concepts of sketching
  • Practice creating sketches in Fusion 360
  • Review the key concepts of construction geometry
  • Practice creating construction geometry in Fusion 360
Join a Study Group for the Course
Join a study group for the course. This will help you connect with other students and learn from each other.
Browse courses on Collaboration
Show steps
  • Find a study group for the course
  • Join the study group and participate in the discussions
Attend a Workshop on Fusion 360
Attend a workshop on Fusion 360. This will help you learn more about the software and how to use it to create designs.
Browse courses on Fusion 360
Show steps
  • Find a workshop on Fusion 360
  • Register for the workshop
  • Attend the workshop and participate in the activities
Five other activities
Expand to see all activities and additional details
Show all eight activities
Learn about Design Tools for Molded Parts
Watch guided tutorials on design tools for molded parts. This will help you learn how to use these tools to create production-ready designs.
Show steps
  • Find a tutorial on design tools for molded parts
  • Watch the tutorial and follow along
  • Practice using the tools on your own
Build a Mechanical Gear Assembly
Start a project to create a mechanical gear assembly. This will help you practice the skills you learn in this course on creating and driving an assembly.
Browse courses on Assembly
Show steps
  • Design the assembly in Fusion 360
  • Create the individual components of the assembly
  • Assemble the components using joints and constraints
  • Test the assembly for functionality
Create and Modify Form-Based Designs
Practice creating and modifying form-based designs. This will help you improve your ability to design complex shapes using forms.
Browse courses on Design
Show steps
  • Create a new form-based design in Fusion 360
  • Add and manipulate vertices, faces, and edges
  • Use the push/pull tool to create complex shapes
  • Export the form-based design to a 3D file format
Create a Resource Compilation on Fusion 360
Create a resource compilation on Fusion 360. This will help you organize and share resources on the software with other students.
Browse courses on Fusion 360
Show steps
  • Gather resources on Fusion 360
  • Organize the resources into a compilation
  • Share the compilation with other students
Design a Product Using the Skills Learned in the Course
Design a product using the skills you learned in this course. This will help you apply your knowledge and skills to a real-world project.
Browse courses on Design
Show steps
  • Choose a product to design
  • Create a design concept
  • Develop the design in Fusion 360
  • Export the design to a 3D file format
  • Present your design to others

Career center

Learners who complete Modeling and Design for Mechanical Engineers with Autodesk Fusion 360 will develop knowledge and skills that may be useful to these careers:
Mechanical Engineer
Mechanical Engineers research, design, develop, build, and test mechanical and thermal devices, including tools, engines, and machines. They work in many industries, such as manufacturing, energy, and transportation. Fusion 360 is a powerful tool for mechanical engineers that can help them to create detailed models and assemblies, simulate their designs, and generate manufacturing documentation. This course can help mechanical engineers to improve their skills in Fusion 360 and to learn new techniques that can help them to be more efficient and productive.
Design Engineer
Design Engineers use their knowledge of engineering principles and materials to design and develop products. They work in many industries, such as consumer electronics, automotive, and aerospace. Fusion 360 is a valuable tool for design engineers that can help them to create realistic models and prototypes, analyze their designs, and generate engineering drawings. This course can help design engineers to improve their skills in Fusion 360 and to learn new techniques that can help them to be more creative and innovative.
Product Engineer
Product Engineers are responsible for the entire product development process, from concept to production. They work in many industries, such as consumer electronics, medical devices, and industrial machinery. Fusion 360 is a valuable tool for product engineers that can help them to manage the entire product development process, from concept to production. This course can help product engineers to improve their skills in Fusion 360 and to learn new techniques that can help them to be more efficient and effective.
Manufacturing Engineer
Manufacturing Engineers plan and manage the production of products. They work in many industries, such as automotive, aerospace, and consumer electronics. Fusion 360 is a valuable tool for manufacturing engineers that can help them to plan and manage the production process, from design to delivery. This course can help manufacturing engineers to improve their skills in Fusion 360 and to learn new techniques that can help them to be more efficient and productive.
CAD Technician
CAD Technicians use computer-aided design (CAD) software to create technical drawings and models. They work in many industries, such as engineering, architecture, and manufacturing. Fusion 360 is a powerful CAD software that can be used to create detailed models and assemblies, generate engineering drawings, and simulate designs. This course can help CAD technicians to improve their skills in Fusion 360 and to learn new techniques that can help them to be more efficient and productive.
Industrial Designer
Industrial Designers create and develop concepts for products, from toothbrushes to cars. They work in many industries, such as consumer electronics, automotive, and furniture. Fusion 360 is a valuable tool for industrial designers that can help them to create realistic models and prototypes, visualize their designs, and generate engineering drawings. This course can help industrial designers to improve their skills in Fusion 360 and to learn new techniques that can help them to be more creative and innovative.
Technical Drafter
Technical Drafters create technical drawings and models that are used to manufacture products. They work in many industries, such as engineering, architecture, and construction. Fusion 360 is a powerful CAD software that can be used to create detailed models and assemblies, generate engineering drawings, and simulate designs. This course can help technical drafters to improve their skills in Fusion 360 and to learn new techniques that can help them to be more efficient and productive.
Mold Designer
Mold Designers design and develop molds for manufacturing products. They work in many industries, such as plastics, metals, and glass. Fusion 360 is a valuable tool for mold designers that can help them to create detailed models and assemblies, simulate the molding process, and generate manufacturing documentation. This course can help mold designers to improve their skills in Fusion 360 and to learn new techniques that can help them to be more efficient and productive.
Product Development Engineer
Product Development Engineers research, design, develop, and test new products. They work in many industries, such as consumer electronics, automotive, and medical devices. Fusion 360 is a valuable tool for product development engineers that can help them to create detailed models and assemblies, simulate their designs, and generate manufacturing documentation. This course can help product development engineers to improve their skills in Fusion 360 and to learn new techniques that can help them to be more efficient and productive.
Aerospace Engineer
Aerospace Engineers research, design, develop, and test aircraft, spacecraft, and other aerospace vehicles. They work in many industries, such as aviation, space exploration, and defense. Fusion 360 is a valuable tool for aerospace engineers that can help them to create detailed models and assemblies, simulate their designs, and generate manufacturing documentation. This course can help aerospace engineers to improve their skills in Fusion 360 and to learn new techniques that can help them to be more efficient and productive.
Automotive Engineer
Automotive Engineers research, design, develop, and test automobiles and other vehicles. They work in many industries, such as automotive, transportation, and manufacturing. Fusion 360 is a valuable tool for automotive engineers that can help them to create detailed models and assemblies, simulate their designs, and generate manufacturing documentation. This course can help automotive engineers to improve their skills in Fusion 360 and to learn new techniques that can help them to be more efficient and productive.
Biomedical Engineer
Biomedical Engineers research, design, develop, and test medical devices and equipment. They work in many industries, such as healthcare, pharmaceuticals, and biotechnology. Fusion 360 is a valuable tool for biomedical engineers that can help them to create detailed models and assemblies, simulate their designs, and generate manufacturing documentation. This course can help biomedical engineers to improve their skills in Fusion 360 and to learn new techniques that can help them to be more efficient and productive.
Chemical Engineer
Chemical Engineers research, design, develop, and operate chemical plants and processes. They work in many industries, such as chemicals, pharmaceuticals, and energy. Fusion 360 may be a useful tool for chemical engineers that can help them to create detailed models and assemblies, simulate their designs, and generate manufacturing documentation. This course may help chemical engineers to improve their skills in Fusion 360 and to learn new techniques that can help them to be more efficient and productive.
Civil Engineer
Civil Engineers research, design, develop, and construct infrastructure, such as roads, bridges, and buildings. They work in many industries, such as construction, transportation, and water resources. Fusion 360 may be a useful tool for civil engineers that can help them to create detailed models and assemblies, simulate their designs, and generate manufacturing documentation. This course may help civil engineers to improve their skills in Fusion 360 and to learn new techniques that can help them to be more efficient and productive.
Electrical Engineer
Electrical Engineers research, design, develop, and test electrical systems and equipment. They work in many industries, such as electronics, energy, and transportation. Fusion 360 may be a useful tool for electrical engineers that can help them to create detailed models and assemblies, simulate their designs, and generate manufacturing documentation. This course may help electrical engineers to improve their skills in Fusion 360 and to learn new techniques that can help them to be more efficient and productive.

Reading list

We've selected nine 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 Modeling and Design for Mechanical Engineers with Autodesk Fusion 360.
Workbook that focuses on geometric dimensioning and tolerancing (GD&T). It valuable resource for mechanical engineers who need to create detailed drawings.
Provides a foundation in visualization, modeling, and graphics for engineering design. It valuable resource for mechanical engineers who need to create detailed drawings.
Provides a fundamental understanding of machine component design. It covers topics such as stress analysis, fatigue, and materials selection. It useful reference for learners who want to develop a solid foundation in this area.
Provides a comprehensive overview of product design for manufacture and assembly (DFMA). It covers topics such as design for manufacturability, assembly analysis, and cost estimation. It valuable resource for learners who want to develop a holistic approach to product design.
Provides a foundation in solid modeling using SolidWorks. Even though it is written for SolidWorks, the concepts are transferable to Fusion 360.
Provides insights into the challenges and opportunities associated with disruptive innovation. It covers topics such as the innovator's dilemma and the importance of sustaining innovation. It valuable resource for learners who want to gain a deeper understanding of the dynamics of innovation.
Provides a project-based introduction to engineering design. It covers topics such as problem definition, concept generation, and design evaluation. It useful resource for learners who want to develop a practical understanding of the design process.
Provides an overview of design thinking and its application to innovation. It covers topics such as user research, ideation, and prototyping. It valuable resource for learners who want to develop a human-centered approach to design.

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