If you select other modes of “Joint Type”, the representation of the sliced 3D model, will be different. The pictures below demonstrate the differences between a low-value vertex mode and a high-value vertex mode.Īs you probably have noticed, this was the representation of the 3D model in the “Diamond” mode, selected under the “Joint Type”. The higher the value of the vertex count, the more detailed the representation of the actual 3D model will be. First of all, we will check out the “Vertex Count” mode. Let’s see the parameters of the “Folded Panels” technique. Once these parts are laser cut, you can fold them and assemble them together to get the final shape of the model. The plans on the right side of the menu show the unfolded parts of the model. This slicing technique, gives your 3D object an origami look. Move the orange axis of 90 degrees and you will get a totally different orientation of the horizontal layers. Moreover, if you select the “Slice Direction” you can affect the way that the 3D model is sliced. In order to do that, you have to increase both values of the the “1st axis” and the “2nd axis” that are on the left side of the menu. To sum it up, if you want a more detailed representation of your 3D model, you have to add more parts to it. Indeed, the higher the value of the 2nd axis, the more layers our 3D model has. We get the same effect if we change the value of the “2nd axis”. You can see this on the right side of the menu where the plans are. Obviously, this change affects also the number of parts of the sliced model, and consequently the number of sheets that will be used for laser cutting. We notice that the higher we set the value of the “1st axis” option, the more layers of our model. Let’s experiment with the options that are on the left side of the menu.įor example, let’s change the value of the “1st axis” option. The sliced 3D model consists of both horizontal and vertical layers, that are connected to each other. Now the 3D model has a totally different slicing appearance than before.Īs you can see, this construction technique lays the layers in a very different way. In the Model workspace, select Make -> Slicer for Fusion 360. Once the installation is finished, restart Fusion 360. Run the installer (click YES when it asks to extract to a certain directory).
#Autodesk slicer for fusion 360 units import download
Click the Download button on the right side of the site. Now you’re ready to design, Arrange, nest, machine, and more! Don’t forget to refer a friend so they can enjoy DXF Import Utility too.Select the “Interlocked Slices” mode from the menu on the left side. Go to the page Slicer on Autodesk App Store. So, if you are importing other formats or have an older model with some sketch gaps, you can easily create closed profiles. Then, all you need to do is select the sketch with gaps to close, set the sketch gap tolerance, and click OK. In the dropdown menu, select Close Sketch Gaps. The other slightly hidden feature of the DXF Import Utility is that it can close gaps in existing sketches.
Further, for nesting, assigning a material will ensure the algorithm sorts onto the appropriate sheet. This reduces what used to be several commands per DXF into one single command for batch imports. Each sketch or body is organized into its own component, just what is needed for Arrange or Nest. This workflow is especially well paired with Arrange or the Nesting and Fabrication Extension. Edit the eXtrusion feature in the timeline for fine control of resultant bodies. If something went awry with how a part was extruded, you can simply edit the timeline feature. The timeline also populates with any imports and extrudes. Once the DXF Import Utility is done, you should see your resultant sketches, sketch, or bodies all inside of Fusion 360. Based on the source of your DXFs, export settings, and the variety of standards across the industry, you may need to play around with the settings to find what works best. But, this could also cause problems on solid parts with bend lines. DXFs with multiple layers might extrude more successfully if you select Combine to Single Sketch. If you opted for extrusion, Fusion 360 will attempt to extrude each sketch to the specified thickness. They will automatically place themselves based on the part spacing and the number of rows. Once you click OK, the DXFs will start appearing in the Fusion 360 canvas. Some highlights include arrangement into rows, closing sketch gaps, automatic extrusion, and text import. Next, a dialog box appears where you can customize the import settings. Click on the icon and follow the prompt to select the DXFs you’d like to import from your hard drive. The DXF Import Utility appears in the Tools section of the toolbar in the Design workspace.