- #3D EXPORTER SKETCHUP 6 PRO SOFTWARE#
- #3D EXPORTER SKETCHUP 6 PRO FREE#
- #3D EXPORTER SKETCHUP 6 PRO WINDOWS#
Repeat steps and until you have copied all of the components and pasted them as individual parts.Paste the component in a new part window.Select one component from your master CATProduct File and copy it.Select File > New > Part > Name the new part.File Menu > Open > select your source file (assemblies import as CATProduct).Saving CATProduct files as CATPart Files for 3D printing: The procedure described below is one of several methods for doing this. To create an STL file from it, you must first convert it to a multi-bodied part. If the source design was saved as an assembly, it is imported to CATIA as a CATProduct. STEP or IGES), must be saved as CATParts. Therefore, source files, including those saved in a neutral format (i.e. Note: CATIA V5 is capable of creating STL files from CATPart files, but not from assemblies (CATProduct files) or geometrical representations (car files). Select STL command (we recommend setting maximum segmentation to 0.015 mm).
#3D EXPORTER SKETCHUP 6 PRO WINDOWS#
Note: To change the values associated with each of the resolution settings (High/Medium/Low) you need to edit the Windows registry.
#3D EXPORTER SKETCHUP 6 PRO FREE#
We recommend uploading your SketchUp file into Meshmixer (a free program from Autodesk) to check your file for faceting and fix any surface flaws. Tip: SketchUp isn’t inherently built for model production therefore it’s useful to check your SketchUp file for additional feature accuracies once it’s exported from the interface.
#3D EXPORTER SKETCHUP 6 PRO SOFTWARE#
If your CAD software is not listed below or if you require additional assistance, please contact your CAD software technical support for information about exporting to an STL. The following step-by-step instructions for converting CAD files to STL came from each CAD software company’s website or from 3D printing and design user forums it’s an overall simplified step-by-step process from the greater 3D printing community. We’ve compiled tips on exporting for the best “surface: file” size ratio below.
These are the parameters that affect the faceting of the STL. When exporting to STL in your CAD package, you may see parameters for chord height, deviation, angle tolerance, poly count, or something similar. 3D printing can only accept a certain file size therefore it’s important to find a balance between your model, its desired surface, and the 3D printing process of your choice. However, the smoother/ less faceted your surface is, (the higher the poly count or triangulation) the larger your file. If the STL is coarse and faceted the physical 3D printed model will be coarse and faceted as well. You cannot build the model smoother than the STL file. The parameters used for outputting a STL will affect how much faceting occurs (Figures 2 and 3). The triangulation (or poly count) of a surface will cause faceting of the 3D model. STL is a triangulated representation of a 3D CAD model (Figure 1). STL is the standard file type used by most additive manufacturing systems.