Design to Make Series

Course Overview

What does this course tell?
(Please note that the following overview content is from the original platform)


360 LIVE: Design to Manufacturing, Part 1 of 4.
360 LIVE: Programming Tool Paths for Spark Plug Bottle Opener, Part 2 of 4.
360 LIVE: Collaboration in Fusion 360, Part 3 of 4.
360 LIVE: Manufacturing Spark Plug Opener, Part 4 of 4.
360 LIVE: Creating the SparkPlug Drawing.
Webinar - Fusion 360 - ISO 9001 Quality Management System.
Fusion 360 and the zen of machining.


We consider the value of this course from multiple aspects, and finally summarize it for you from three aspects: personal skills, career development, and further study:
(Kindly be aware that our content is optimized by AI tools while also undergoing moderation carefully from our editorial staff.)
1. Design to Make Series: Learners can learn how to design and manufacture products from scratch, from programming tool paths to collaboration in Fusion 360. They can also learn how to create drawings and use Fusion 360 to create an ISO 9001 Quality Management System.
2. Programming Tool Paths: Learners can learn how to program tool paths for a specific product, such as a spark plug bottle opener. They can also learn how to use Fusion 360 to create a machining process.
3. Collaboration in Fusion 360: Learners can learn how to collaborate with other designers and engineers in Fusion 360. They can also learn how to use the software to create a quality management system.
4. Manufacturing Spark Plug Opener: Learners can learn how to manufacture a spark plug opener using Fusion 360. They can also learn how to create drawings and use the software to create a machining process.

[Applications]
The Design to Make Series provides a comprehensive overview of the design and manufacturing process. After completing this course, participants can apply their knowledge to create their own designs and manufacture them using Fusion 360. They can also use the ISO 9001 Quality Management System to ensure their designs meet the highest standards. Additionally, participants can use the zen of machining to create more efficient and accurate tool paths.

[Career Paths]
1. Manufacturing Engineer: Manufacturing Engineers are responsible for designing, developing, and overseeing the production of industrial machinery and equipment. They use their knowledge of engineering principles and manufacturing processes to ensure that products are produced efficiently and cost-effectively. As technology advances, Manufacturing Engineers must stay up-to-date on the latest trends and developments in order to remain competitive.

2. CAD Designer: CAD Designers use computer-aided design (CAD) software to create detailed drawings and models of products and components. They must be able to interpret customer requirements and design specifications in order to create accurate and efficient designs. With the increasing use of 3D printing and other advanced manufacturing techniques, CAD Designers must be knowledgeable in the latest technologies and trends in order to remain competitive.

3. CNC Machinist: CNC Machinists use computer numerical control (CNC) machines to produce precision parts and components. They must be knowledgeable in the operation of CNC machines, as well as the programming and setup of CNC machines. As technology advances, CNC Machinists must stay up-to-date on the latest trends and developments in order to remain competitive.

4. Quality Assurance Manager: Quality Assurance Managers are responsible for ensuring that products meet quality standards. They must be knowledgeable in quality assurance principles and techniques, as well as the latest trends and developments in the field. Quality Assurance Managers must be able to identify and address any issues that may arise during the production process in order to ensure that products meet customer requirements.