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Autodesk

Design for manufacturing is the process of designing parts, components, or products with the understanding surrounding design requirements for a specific manufacturing method.

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Design for manufacturing is the process of designing parts, components, or products with the understanding surrounding design requirements for a specific manufacturing method.

This course explores the design for manufacture workflow and shows how to validate models and create the G code, the programming language needed to instruct the CNC machine on how to move. We practice the basics of part and assembly design, and tools such as animation, rendering, and simulations using Autodesk Fusion 360. We learn the basics in each of these areas which are to be fully developed in later courses that apply these principles and Fusion 360 skills.

After taking this course, you'll be able to:

- Explain the design to manufacturing process used to take a digital model to a physical part through CNC programming.

- Summarize the toolset available in Fusion 360.

- Demonstrate knowledge and skills in Fusion 360 applying design and manufacturing workflows to take digital parts to physical prototypes.

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

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What's inside

Syllabus

The future of manufacturing and innovation
In Week 1, we’ll review how Fusion 360 relates to current trends in the industry. By identifying career skills required for mechanical engineers, we can better understand the toolset needed and how Fusion 360 can help.
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Introduction to CAD sketching and modeling
In Week 2, we'll learn the design aspects of Fusion 360 to create fully defined sketches and models. These areas comprise the core design functionality of Fusion 360. After completing this module, you'll be able to: Use features to create solid bodies. Create feature patterns.
Introduction to assemblies, animations, renders, and detailed drawings
In Week 3, you'll learn how to create and manage assemblies, animations, renders, and detailed drawings. These areas comprise and extension to the core design functionality of Fusion 360.
Introduction to CAM
In Week 4, we’ll explore how to use Fusion 360 to create simulations and G-code for CNC machining. These integrated tools help complete the design for manufacturing process using the design, engineering and manufacturing tools in Fusion 360. 4
Introduction to CAE
In Week 5, we'll define, solve, and review a static stress simulation using the Fusion 360 Simulation Workspace. Computer-aided engineering (CAE) removes some of the guess work previously associated with design. Advanced tools like buckling or modal frequency analysis can help shape the parameters for design updates before prototyping or production. Walk through Static Stress Simulation setup, solve, and review process.

Good to know

Know what's good
, what to watch for
, and possible dealbreakers
Taught by Autodesk, who are recognized for their work in 3D CAD software
Develops skills in Fusion 360, which is standard in the industry
Develops core mechanical engineering skills
Develops skills for career growth in mechanical engineering
Requires proficiency in CAD design
Assumes learners have access to Fusion 360

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Reviews summary

Beginners' guide to mechanical design with fusion 360

learners say this course offers a great introduction to Fusion 360 for beginners with engaging assignments that cover lectures, readings, exams, quizzes, homework assignments, instructors, deadlines, and certificates. It provides a solid foundation for designing, simulating, and manufacturing using Fusion 360, and introduces workspaces such as modeling, rendering, and animation. While the course may not be ideal for experienced users, it is highly recommended as a starting point for those new to mechanical engineering design and Fusion 360.
The course is free to audit.
"learners say this course offers a great introduction to Fusion 360 for beginners with engaging assignments that cover lectures, readings, exams, quizzes, homework assignments, instructors, deadlines, and certificates."
"It provides a solid foundation for designing, simulating, and manufacturing using Fusion 360, and introduces workspaces such as modeling, rendering, and animation."
"While the course may not be ideal for experienced users, it is highly recommended as a starting point for those new to mechanical engineering design and Fusion 360."
The course is self-paced and can be completed at your own speed.
"learners say this course offers a great introduction to Fusion 360 for beginners with engaging assignments that cover lectures, readings, exams, quizzes, homework assignments, instructors, deadlines, and certificates."
"It provides a solid foundation for designing, simulating, and manufacturing using Fusion 360, and introduces workspaces such as modeling, rendering, and animation."
"While the course may not be ideal for experienced users, it is highly recommended as a starting point for those new to mechanical engineering design and Fusion 360."
The course is designed for beginners and assumes no prior knowledge of mechanical engineering design or Fusion 360.
"learners say this course offers a great introduction to Fusion 360 for beginners with engaging assignments that cover lectures, readings, exams, quizzes, homework assignments, instructors, deadlines, and certificates."
"It provides a solid foundation for designing, simulating, and manufacturing using Fusion 360, and introduces workspaces such as modeling, rendering, and animation."
"While the course may not be ideal for experienced users, it is highly recommended as a starting point for those new to mechanical engineering design and Fusion 360."
The course covers a wide range of topics, including modeling, rendering, animation, simulation, and manufacturing.
"learners say this course offers a great introduction to Fusion 360 for beginners with engaging assignments that cover lectures, readings, exams, quizzes, homework assignments, instructors, deadlines, and certificates."
"It provides a solid foundation for designing, simulating, and manufacturing using Fusion 360, and introduces workspaces such as modeling, rendering, and animation."
"While the course may not be ideal for experienced users, it is highly recommended as a starting point for those new to mechanical engineering design and Fusion 360."
The course offers engaging assignments that cover a wide range of topics, including lectures, readings, exams, quizzes, homework assignments, and peer reviews.
"learners say this course offers a great introduction to Fusion 360 for beginners with engaging assignments that cover lectures, readings, exams, quizzes, homework assignments, instructors, deadlines, and certificates."
"It provides a solid foundation for designing, simulating, and manufacturing using Fusion 360, and introduces workspaces such as modeling, rendering, and animation."
"While the course may not be ideal for experienced users, it is highly recommended as a starting point for those new to mechanical engineering design and Fusion 360."

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 Introduction to Mechanical Engineering Design and Manufacturing with Fusion 360 with these activities:
Connect with Industry Professionals
Seek out experienced engineers or designers in the field to gain valuable insights, advice, and potential mentorship opportunities.
Show steps
  • Attend industry events and conferences.
  • Reach out to professionals on LinkedIn and other platforms.
Review Shape Modeling
Reviewing techniques and procedures for shape modeling will prepare you for the CAD modeling aspects of this course.
Browse courses on 3D Modeling
Show steps
  • Revisit the key concepts of 3D modeling.
  • Practice creating 3D shapes using a software.
Form a Study Group with Other Students
Engaging with peers in a study group can provide support, foster collaboration, and enhance your learning experience.
Browse courses on Fusion 360
Show steps
  • Find other students in the course and form a study group.
  • Meet regularly to discuss the material, work on projects together, and quiz each other.
Six other activities
Expand to see all activities and additional details
Show all nine activities
Explore Fusion 360 Online Tutorials
Exploring additional tutorials will provide further guidance and enhance your understanding of the software and its applications.
Browse courses on Fusion 360
Show steps
  • Find relevant tutorials on the Fusion 360 website.
  • Watch the tutorials and take notes on the key concepts.
  • Practice applying the concepts you learned in your own projects.
Complete Fusion 360 Modeling Drills
Completing a series of practice drills will help reinforce the skills and concepts discussed in the course.
Browse courses on Fusion 360
Show steps
  • Download the practice drills from the course materials.
  • Complete the practice drills using Fusion 360.
  • Review your work and make corrections as needed.
Design a Mechanical Part in Fusion 360
Apply your knowledge of Fusion 360 to design and create a simple mechanical part, such as a bracket or gear.
Browse courses on Part Design
Show steps
  • Identify the requirements and specifications for the part.
  • Sketch and model the part using the appropriate tools in Fusion 360.
  • Analyze the part's performance using simulations.
Generate G-Code for CNC Machining
Develop your skills in generating G-code from your 3D models, enabling you to control CNC machines for manufacturing.
Browse courses on G-Code Generation
Show steps
  • Learn the principles of G-code and CNC programming.
  • Use Fusion 360's CAM module to generate toolpaths and G-code.
  • Simulate the CNC machining process to check for errors.
Document Your Design Workflow
Create a detailed documentation of your design process, including sketches, models, simulations, and G-code, to improve your understanding and share your knowledge with others.
Show steps
  • Create a portfolio of your work.
  • Write a blog or article about your design project.
  • Record a video tutorial demonstrating your design workflow.
Develop a Presentation on Fusion 360
Creating a presentation on the software will demonstrate your mastery of the platform and its capabilities.
Browse courses on Fusion 360
Show steps
  • Research the key features and applications of Fusion 360.
  • Develop a presentation outline and gather relevant materials.
  • Create and deliver your presentation to a group.

Career center

Learners who complete Introduction to Mechanical Engineering Design and Manufacturing with Fusion 360 will develop knowledge and skills that may be useful to these careers:
Product Designer
Product Designers create and develop new products or improve existing products. They work with other product professionals, such as engineers and marketers, to bring products to market that meet customer needs. This course can help Product Designers understand the manufacturing process and how to design products with manufacturability in mind. This can help them create products that are more efficient to produce and less expensive to manufacture, which can lead to greater success in the marketplace.
Mechanical Engineer
Mechanical Engineers design, develop, and build machines and other mechanical systems. They work in a variety of industries, including automotive, aerospace, and manufacturing. This course can help Mechanical Engineers learn about the manufacturing process and how to design products with manufacturability in mind. This can help them create products that are more efficient to produce and less expensive to manufacture, which can lead to greater success in the marketplace.
Industrial Designer
Industrial Designers combine art and engineering to create products that are both aesthetically pleasing and functional. They work with a variety of materials and processes to create products that are durable, safe, and user-friendly. This course can help Industrial Designers understand the manufacturing process and how to design products with manufacturability in mind. This can help them create products that are more efficient to produce and less expensive to manufacture, which can lead to greater success in the marketplace.
Computer-Aided Design (CAD) Technician
Computer-Aided Design (CAD) Technicians use software to create 3D models of products. These models can be used for a variety of purposes, such as design, engineering, and manufacturing. This course can help CAD Technicians learn how to use Fusion 360, which is a leading CAD software program. This can help them create more accurate and efficient models, which can lead to greater success in their careers.
Manufacturing Engineer
Manufacturing Engineers oversee the production of products in a variety of industries. They work with other engineers and technicians to develop and implement manufacturing processes that are efficient and cost-effective. This course can help Manufacturing Engineers understand the manufacturing process and how to design products with manufacturability in mind. This can help them create products that are more efficient to produce and less expensive to manufacture, which can lead to greater success in the marketplace.
Fabrication Supervisor
Fabrication Supervisors oversee the production of products in a variety of industries. They work with other supervisors and technicians to ensure that products are produced according to specifications and quality standards. This course can help Fabrication Supervisors understand the manufacturing process and how to design products with manufacturability in mind. This can help them create products that are more efficient to produce and less expensive to manufacture, which can lead to greater success in the marketplace.
Quality Control Inspector
Quality Control Inspectors ensure that products meet specifications and quality standards. They work in a variety of industries, including manufacturing, food processing, and pharmaceuticals. This course can help Quality Control Inspectors understand the manufacturing process and how to identify and correct defects. This can help them improve the quality of products and reduce costs, which can lead to greater success in the marketplace.
Production Manager
Production Managers oversee the production of products in a variety of industries. They work with other managers and supervisors to ensure that products are produced according to schedule and budget. This course can help Production Managers understand the manufacturing process and how to design products with manufacturability in mind. This can help them create products that are more efficient to produce and less expensive to manufacture, which can lead to greater success in the marketplace.
Mechanical Design Engineer
Mechanical Design Engineers design and develop mechanical systems. They work in a variety of industries, including automotive, aerospace, and manufacturing. This course can help Mechanical Design Engineers learn about the manufacturing process and how to design products with manufacturability in mind. This can help them create products that are more efficient to produce and less expensive to manufacture, which can lead to greater success in the marketplace.
CNC Programmer
CNC Programmers create programs that control CNC machines. These machines are used to manufacture a variety of products, including parts for cars, airplanes, and medical devices. This course can help CNC Programmers learn how to use Fusion 360, which is a leading CAM software program. This can help them create more accurate and efficient programs, which can lead to greater success in their careers.
CAE Engineer
CAE Engineers use computer software to simulate the behavior of products. This information can be used to improve the design of products and reduce the risk of failure. This course can help CAE Engineers learn how to use Fusion 360, which is a leading CAE software program.
Design Engineer
Design Engineers use computer software to design products. This information can be used to create prototypes and production-ready models. This course can help Design Engineers learn how to use Fusion 360, which is a leading CAD software program. This can help them create more accurate and efficient designs, which can lead to greater success in the marketplace.
Manufacturing Technician
Manufacturing Technicians operate and maintain machinery used to produce products. They work in a variety of industries, including automotive, aerospace, and manufacturing. This course can help Manufacturing Technicians understand the manufacturing process and how to operate and maintain machinery. This can help them improve the efficiency and productivity of manufacturing operations, which can lead to greater success in the marketplace.
Quality Assurance Inspector
Quality Assurance Inspectors ensure that products meet specifications and quality standards. They work in a variety of industries, including manufacturing, food processing, and pharmaceuticals. This course can help Quality Assurance Inspectors understand the manufacturing process and how to identify and correct defects. This can help them improve the quality of products and reduce costs, which can lead to greater success in the marketplace.
Product Development Engineer
Product Development Engineers research, design, and develop new products. They work in a variety of industries, including automotive, aerospace, and manufacturing. This course can help Product Development Engineers understand the manufacturing process and how to design products with manufacturability in mind. This can help them create products that are more efficient to produce and less expensive to manufacture, which can lead to greater success in the marketplace.

Reading list

We've selected 11 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 Introduction to Mechanical Engineering Design and Manufacturing with Fusion 360.
Dives into the principles and practices of computer numerical control (CNC), which key topic in the course and is used in industries like manufacturing.
Useful reference tool for those interested in learning more about the basics of CAD/CAM.
Provides a comprehensive overview of lean manufacturing.
Delves into additive manufacturing technologies, providing insights into 3D printing and its applications in various industries.
Offers a broad perspective on machine design, encompassing topics such as materials, stress analysis, and power transmission.
Provides a comprehensive overview of lean manufacturing, a production philosophy that aims to reduce waste and improve efficiency.

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