With design for manufacturing, our design process focused on the design over its cost, but always keeping in mind how parts needed to be made. With manufacturing at the core of a design, we're able to fix potential problems in the design phase rather than after production. In many cases, the end product is made up of an assembly of different pieces to simplify manufacturing or to achieve specific design goals. Each piece represents a certain tolerance and put together, things might not work or fit if they weren’t accounted for in the design.
Ce cours fait partie de la Spécialisation Autodesk CAD/CAM/CAE for Mechanical Engineering
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À propos de ce cours
Ce que vous allez apprendre
Inspect a multicomponent assembly.
Identify manufacturing methods based on part inspection.
Create detailed drawings for manufacturing.
Practice creating toolpaths for manufacture.
Compétences que vous acquerrez
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Autodesk
Today's challenges will be solved by tomorrow's designers. That's why Autodesk gives students, educators, and educational institutions free access to our design software, creativity apps, and learning resources. A market leader for more than 30 years, Autodesk offers the broadest and deepest portfolio of products in the design world. Autodesk helps people imagine, design and create a better world. Everyone—from design professionals, engineers and architects to digital artists, students and hobbyists—uses Autodesk software to unlock their creativity and solve important challenges.
Programme du cours : ce que vous apprendrez dans ce cours
Drafting for Manufacture
In Week 1, we’ll focus on the creation of detailed drawings for production. Understanding not only how to create or customize a drawing, but also how to identify critical features or aspects of a design on a drawing is key to helping ensure the parts you get are the parts you want.
Design for Manufacture
In Week 2, we’ll discuss topics surrounding the review and modification of designs for manufacture. From tool accessibility, to understanding the required tools and the design of fixturing and soft jaws for vises, this week will help prepare for programming toolpaths. We explore and understand the cost associated with part setup, raw stock, and material removal to better identify design changes for production.
Setting up a CNC Milling program
In Week 3, we’ll focus on setting up and creating a CNC milling program. We’ll lay the foundation for all programs by creating and managing a tool library, defining a setup, and creating milling and drilling toolpaths. The setup and creation of these will be the basis for nearly every milling program.
Machining complex geometry
In Week 4, we’ll cover additional toolpaths required to help rough and finish complex 3D shapes. Understanding the toolpaths available and the types of geometry they can be used on will help you to make informed decisions on any part. Toolpaths often have strengths and weaknesses based on the geometry and we'll identify some of these to help get your parts to the shop floor quicker.
Avis
Meilleurs avis pour CAM AND DESIGN MANUFACTURING FOR MECHANICAL ENGINEERS WITH AUTODESK FUSION 360
Great experience till now I have completed all 4 courses in this specialization and I should say the courses are really helpful as specially for student of Mechanical Engineering . Thank You Autodesk
CAM using fusion 360 this course will directly made me full fill as engineer in design really an understandable way of teaching i assure that this course will get me placement in CAM PROGRAMMING
Great intro into machining! Covered all the basics, and now I just want to get myself some actual machining experience and use some of this material practically!
A Benchmark Course for CAM and Design Manufacturing. My Sincere thanks to the Instructors of Autodesk and Coursera for Providing Such a job based skillset.
À propos du Spécialisation Autodesk CAD/CAM/CAE for Mechanical Engineering
The demand placed on today’s engineers goes above and beyond the job description. Products have become complex and engineers are more frequently asked to leave specialized roles and to take on a wide variety of tasks that are beyond their traditional responsibilities. These tasks are centered on form, fit, and function. Engineers need to factor in broader concerns such as cost, procurement, sustainability, manufacturability, and serviceability. Their role has moved away from an individual responsibility to working as part of a collaborative engineering team, executing tradeoffs with both engineering and business stakeholders to meet project goals. These trends have forced today’s engineers to broaden their skillset to be successful.

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