Most machines today control tool motion in 3-axes, X, Y and Z, but can be upgraded to include a 4th or 5th axis as well, A and B. We identify the difference in a lathe’s coordinate system, tools, and how to create lathe specific toolpaths.Ĭomputer Numerical Controlled machines, or CNC for short, can have a nearly endless number of options. In this course we turn our attention to the CNC Lathe. More specifically vertical milling centers. ![]() So far, we have only talked about CNC Mills. We’ll wrap up this course by creating a full CNC program for a part, simulating it, and exporting it to G-code.ĬNC machines come in an almost endless array of configurations for various applications. In this course, we explore how to rough and finish geometry that requires tool motion in X, Y, and Z simultaneously, learning how to finish even the finest of details. This is the same basic process that gets repeated for the design and manufacture of any part and is a critical step in learning and understanding the process.ģ-Axis Machining with Autodesk Fusion 360Īs our machining geometry gets more complicated, Autodesk® Fusion 360™ is up to the task! With a host of standard and adaptive toolpaths we can rapidly remove material from even the most complicated 3d parts. Finally, we explore the basics of setting up a CAM program and defining toolpaths to cut simple geometry. Before we program any toolpaths, we’ll explore CNC machining basics to ensure we have the ground level foundational knowledge needed to effectively define toolpaths. In this course we begin with the basics in Autodesk® Fusion 360™ CAD by learning how to properly sketch and model 3D parts. This course introduces you to the foundational knowledge in computer-aided design, manufacture, and the practical use of CNC machines. Introduction to CAD, CAM, and Practical CNC Machining There are four courses in this specialization. Through this specialization, you'll learn the foundations of CAD and toolpath generation, while developing your technical skills in Autodesk® Fusion 360™. They will also practice Job ready CAD skills and CAM using Autodesk Fusion 360. Learners will practice design-related vocabulary and visual literacy to articulate their process and decisions. Sharing your Autodesk Credential can signal to hiring managers that you’ve got the right skills for the job and you’re up on the latest industry trends like CAD and CAM. Plus, by completing this Specialization, you’ll unlock an Autodesk Credential as further recognition of your success! The Autodesk Credential comes with a digital badge and certificate, which you can add to your resume and share on social media platforms like LinkedIn, Facebook, and Twitter. As we learn how to use technology in this way, we unlock the potential of computer aided manufacturing (CAM). ![]() This is the case when we use digital data to create complex tool motions. Bringing the studio and shop floor together can reduce iterations and errors, enabling you to deliver better products faster.Ĭomputers can handle complex tasks to achieve things that are time consuming or in some cases impossible for the human mind. But to compete in the future, you’ll need to connect and automate design and manufacturing processes. The “throw-it-over-the-wall” approach to product development worked well enough in the past. Manufacturers are under more pressure than ever to deliver better products faster, at lower cost, and with less waste.
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