amf, but regardless of which format you choose, the resolution (or a number of triangles in the mesh file) ultimately determines the quality of the final print. However, for projects making heavy use of arcs, circles, splines, or curves, the quality difference will be significant.ģD printers typically use mesh files for printing, which are tessellated approximations of CAD models made up of hundreds or even hundreds of thousands of triangles. The truth is, if your printing projects are generally prismatic, you’re unlikely to notice a major difference in printing quality as a result of adjusting settings in SOLIDWORKS. I chose this model for one specific reason – there’s not a single straight line on it. To show the differences in quality, we’ll be using the SOLIDWORKS model seen below: In this article, we’ll examine these parameters and show you how to get the best possible quality for your 3D printing projects. When preparing a model for 3D printing in SOLIDWORKS, there are a variety of adjustable settings that have a direct impact on the quality of the finished product. But whether you’re using a desktop-sized Markforged or an industrial, state-of-the-art HP Jet Fusion, you’re likely starting in the same place – SOLIDWORKS. Therefore it’s imperative to optimize the design of your SOLIDWORKS model to prepare it for 3D Printing. In today’s age of 3D printing, once-inconceivable manufacturing projects can now be brought to life right from your desktop. Learn How to Optimize Your Design in SOLIDWORKS to Prepare It for 3D Printing
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