FUSION 360: PROTOTYPE & PRODUCTION CNC MACHINING
Using Fusion 360 CAD and CAM in this course allows participants to optimize parts set for the CNC milling process, set toolpaths, program 3D models for prototype & manufacturing, as well as, simulate the CNC machining process prior to cutting the part.? In this course, you will learn the basics of Part modeling for optimizing CNC parts. Participants will then go through the process of setting up and programming three types of manufacturing methods. We are able to offer custom training opportunities based on your needs by focusing on the Limited CAM functionality of the free subscription of Fusion 360 or the Comprehensive CAM functionality. The tools you will learn in this class are applicable to any of the other major software packages.
This class is intended to improve the proficiency of CNC skills and enhance the confidence of our clients’ using Fusion 360 Milling tools. Our training classes are available for manufacturers, CNC tool programmers, operators, plus design and engineering teams interested in designing more efficient CNC parts. This milling fundamentals course for prototyping and custom manufacturing can be combined with a course in CAD and covers the CNC process, from CAD development to machining products. After this class, you can expect faster setups and change orders, better production runs with fewer scrap workpieces along with improved proficiency of your CNC operations.
- Setting up, programming, simulating, and exporting G-code
- Navigating Fusion
- Basics of Fusion design
- Learn to prepare Fusion models or STEP imports for the machining process
- Create the fixture model
- CAM setup; set origin and stock model
- Learn to filter the library by various parameters such as operation, tool type, and diameter, Fusion 360 displays any applicable tools
- Create, explore, and understand various mill toolpaths from roughing to finishing
- Create a second setup and complete the machining of the part
- Create a lathe part with following the same steps as milling
- Simulation Part One & Two, Setup Sheet, Post process
- Explore post processors for your specific machine
Duration & Cost
16 hours = $1650/person
For corporates, please call (312)226-8339
Some knowledge of using Fusion 360 is recommended
- Differences between CAM functionality of the free subscription of Fusion 360 to the Comprehensive CAM functionality subscription with examples
- Overview for NC code generation, including best practices for models designated for CNC, NC Program creation, process documentation, tool path verification
- Showcase Fusion 360 standard set of tools in the tool library
- Fusion 360 ability to adapt to design changes
- Tool path simulation in Fusion 360, allowing dynamic rotation and zooming?
- Discuss how simulation can facilitate the tool path verification process
- Optimizing tooling time for speed
- Running programs on your specific machine
- Cost Reduction
- Create both 3 and 4 axis CNC toolpaths, CNC Mill/Turn and lathe toolpaths, and finish up by creating 2D cutting toolpaths such as a Waterjet, Laser Cut, Plasma
- Model a fixture or adjust features to prepare a model for machining; start a new setup and define parameters to inform a CNC machine of size and location of stock
- Create, import, export, and duplicate tool libraries and create custom tools for any manufacturing needs
- Demonstrate mill toolpaths that are required to machine an enclosure or similar part using various functions including facing, drilling, 2D pocket, and adaptive clearing, as well as 3D toolpaths such as 3D contour?
- Other demonstrations include Facing Toolpath, Drilling toolpath, 2D pocket, Adaptive Clearing, Threading, Bore, 3D contour, 2D contour, Pocket, Clean Break tabs, Clean External Bore Prepriaton, Clean External Bore, Pattern Drilling Setups, Drilling Setups for 4th axis?
- Showcase turning functions and illustrate lathe toolpaths to machine a brake hub or bicycle wheel hub, include turning profile, turning chamfer, turning thread, and boring an internal diameter
- Run simulations to validate the toolpaths created in the setups and check for mistakes
- Create setup sheet to start making chips
- Export toolpaths into a post-process that is machine specific NC code and help you organize a processor for your specific machine.
Video Training Delivery System
Ask your Design Engine account manager about our Training Delivery System(TDS), an easy-to-follow guide for designers and engineers who want a supplement to this course.?