- #HOW TO CHANGE MATERIAL IN SLICER FOR FUSION 360 FULL#
- #HOW TO CHANGE MATERIAL IN SLICER FOR FUSION 360 CODE#
However, when you dig in deep it really does appear that the options presented are at a basic level only. I’m not sure how they are going to handle this as the system evolves in the future.įusion 360 includes pre-made profiles for only 12 materials, and not only is it likely the material you want is not on the list, you will have to tweak the profile to match the particular machine you’re using.įor the print job settings, Fusion 360 provides a set of parameters as seen here. Meanwhile, Fusion 360 would ultimately have to provide profiles for ALL machines. To be fair, Autodesk is at a significant disadvantage here because a 3D printer manufacturer like, say, Ultimaker, needs only to provide profiles for their equipment. There is a shortage of defined material profiles. This does not yet seem to be the case with Fusion 360’s slicing system. The more popular 3D print slicing systems today, such as Ultimaker Cura, PrusaSlicer/Slic3r, or Simplif圓D are actually quite sophisticated, having evolved over multiple years to arrive at their current powerful states. One tab from Fusion 360’s additive slicing options XYZprinting, for example, is perhaps the 3D printer manufacturer with the highest number of different 3D printer models, yet they have only one entry on the list, the Da Vinci Color Mini.įortunately, Autodesk has included a number of the most popular machines, including:įor those with other machines, there is still a possibility: Autodesk offers a “Generic FFF Machine”, whose configuration can presumably be tweaked to match an unsupported device. In fact, there are only twentyish 3D printers listed. Note that only selected machines are available in Fusion 360, and there are many models unavailable. As such, Autodesk has smartly included the ability to generate GCODE for select machines from the following 3D printer vendors: Of course, 3D print slicing depends significantly on the specific machine involved, because they can have additional or slightly different GCODE commands. A look at the updated “Manufacture” space shows that CAM can be done for milling, turning, cutting and, now, additive. Now it appears that Autodesk has decided to include 3D print job preparation in their CAM workflow. New “Additive” option appears in Fusion 360 Manufacturing space Aspects associated with the print job, as opposed to the 3D design itself, are specified during slicing, such as the number of copies, infill percentages, etc. The CAM process is essentially the same concept as 3D print slicing, where a 3D model is transformed into GCODE for execution on a 3D printer. Fusion 360 allows the user to inspect and modify toolpaths to ensure the right milling bits are used at the appropriate sequences.
#HOW TO CHANGE MATERIAL IN SLICER FOR FUSION 360 CODE#
This is the process by which a 3D design is converted into executable code to run on, say, a CNC milling machine. One of the features it has long offered is “CAM”, or Computer Aided Manufacturing. It’s also possible to develop mechanical devices with complex moving parts and even simulate mechanical forces or automatically generate structures based on those forces. You can, for example, also create sheet metal designs. Fusion 360 CAMįusion 360 offers a design workspace in which there are plenty of tools beyond 3D modeling.
#HOW TO CHANGE MATERIAL IN SLICER FOR FUSION 360 FULL#
The popular cloud-based subscription 3D modeling tool is chock full of features, and now they can prepare 3D print jobs - in a rudimentary manner. A look at Autodesk Fusion 360’s new additive job preparation feature Īutodesk Fusion 360 slid an interesting feature into their latest release: 3D print slicing.