Now that your design is ready for 3D printing, select the MAKE command. Grouped Models: While it is possible to export several bodies in a single STL file (so-called grouped models), we recommend you to export one model at a time.Sometimes this process is also called ‘creating a manifold model’ Ask yourself the question: if I were to put water inside my model, would it flow out? If that’s the case, then you need to find those holes and close them. Watertight: A printable model must not have any holes in its surface.You simply cannot print an object that has a ‘paper-thin’ wall without substance. Therefore, when turning a 3D model into a real 3D print, the wall thickness or volume information of the model is needed. Wall Thickness: Printers need information about how thick you intend the wall of your object to be (or if you want to print a completely solid model).Chances are you already respect them in Fusion 360 without even knowing that they exist. That’s why the transition from virtual 3D model to actual 3D print is quite easy with this software. Luckily for us, Fusion 360 is mainly used by industrial designers to create functional parts. This is a problem in particular for programs mostly used by visual artists and game developers. A 3D model might look perfect on your screen, but would not be able to exist as a geometrical object in the real world. So let’s get started!Īs with any other program, Fusion 360 users need to make sure to stick to certain design rules when it comes to 3D printing. We will learn how to model, edit, prepare and 3D print a Fusion 360 design. It combines powerful functionalities with a beginner-friendly interface and a relatively easy learning curve. In this tutorial, we will dive deeper into the 3D printing capabilities of Fusion 360. If printing on external FDM Printer save this file and import to other Slicer compatible with your printer.Autodesk Fusion 360 is one of the most popular programs among the 3D printing community, especially for those interested in industrial design. This will then Open Cura To continue, Open article (Printing On 5XM using CURA) We have chosen to use Cura for 3D printing To avoid this we need to include “printing template” in our stl file, it is a rectangle that is larger than our dental mesh and is centered on the Fusion360 origin, this means that the centre of its bounding box in Fusion360 is on top of the origin so that when our model is imported into slicer the origin in slicer should match the origin in Fusion360. Stl files that are used by 3d printing slicers do not store location data, this means that when you import your stl file in to slicer, slicer should use the bounding box of the model to centre the object on the printers origin, which should result in misalignment of your model between printing and trimming processes. “Printing template” is square base that is normally invisible but is important for making sure that when imported in to slicer your model should have same origin as in Fusion360. Select the component folder and make sure that both dental mesh and “printing template” are selected. Rename the mesh with appropriate date/Patient number/name so that you may revisit at a later date, then save a duplicate of this file. The Mesh should have imported into the correct component folder. Position the mesh model central of the pallet, the aim is to achieve even spacing between venting slots. Select Appropriate Dental mesh you will use. In Fusion360 make sure Component Folder is selected This Step by Step Guide will demonstrate how to import STL, OBJ and Dental scans into Fusion 360 and how to prepare your mesh for 3D Printing.įirst step is to import your stl file in to Fusion360.
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