Printing in 3D
3D printing machines use drawings created in CAD or 3D modelling software to fabricate models.There are a number of 3D printing technologies including Sterolithography, Selective Laser Sintering (SLS) and Fusion Deposition Modelling (FDM). The 'additive fabrication' device reads data from an .stl file to create directional print paths.The material is then deposited along the path to create the three dimensional object. Many 3D modelling software packages are able to export .stl files, either as part of the programme or as a plug-in. Software programmes used at Cofa for 3D printing include FormZ, Maya and Vectorworks.
Preparing an STL file
You need to supply your 3D drawing as an .stl computer file.
The STL file was registered by 3D Systems for their stereolithography CAD software. It has recently become the default file standard used by the Rapid prototyping industry. The Dimensions SST's inbuilt software, ‘Catalyst’ , processes an .stl file to create the paths along which the machine prints the liquid plastic. It will not accept any other type of file.
About .stl Files
The .stl file format comprises exclusively triangular polygons that describe the surface of a computer generated solid model. It is sometimes referred to as a triangular polymesh model. STL files can be created in either Ascii or Binary format. It is best to create a binary format .stl file. Binaries files are smaller than Ascii, a useful consideration as .stl files of complex geometries can become very large.
Your .stl file describe must describe a solid shape, that is, a completely enclosed object geometry that contains no holes. .stl files only describe surface geometry. They do not incorporate colour , texture or other attributes that may be supported by CAD software (some 3d printers are now able to read colour). .stl files are scale independent, however their resolution is not. A variety of CAD software packages handle the scaling of .stl files differently on export. The model can also be scaled larger of smaller by the 3d printer catalyst software, however no triangles will be subtracted or new triangles created.
For best results , create the object to the desired scale in the CAD or Modelling software, then triangulate the object to the resolution you require for printing during conversion to an .stl file. Some software packages incorporate .stl export modules which allow you to control such parameters. The dimensions of surface triangles should be in the vicinity of .25 and .5 mm to give the most detailed results on the Dimensions SST 3D printer.
Preparing an STL file
You need to supply your 3D drawing as an .stl computer file.
The STL file was registered by 3D Systems for their stereolithography CAD software. It has recently become the default file standard used by the Rapid prototyping industry. The Dimensions SST's inbuilt software, ‘Catalyst’ , processes an .stl file to create the paths along which the machine prints the liquid plastic. It will not accept any other type of file.
About .stl Files
The .stl file format comprises exclusively triangular polygons that describe the surface of a computer generated solid model. It is sometimes referred to as a triangular polymesh model. STL files can be created in either Ascii or Binary format. It is best to create a binary format .stl file. Binaries files are smaller than Ascii, a useful consideration as .stl files of complex geometries can become very large.
Your .stl file describe must describe a solid shape, that is, a completely enclosed object geometry that contains no holes. .stl files only describe surface geometry. They do not incorporate colour , texture or other attributes that may be supported by CAD software (some 3d printers are now able to read colour). .stl files are scale independent, however their resolution is not. A variety of CAD software packages handle the scaling of .stl files differently on export. The model can also be scaled larger of smaller by the 3d printer catalyst software, however no triangles will be subtracted or new triangles created.
For best results , create the object to the desired scale in the CAD or Modelling software, then triangulate the object to the resolution you require for printing during conversion to an .stl file. Some software packages incorporate .stl export modules which allow you to control such parameters. The dimensions of surface triangles should be in the vicinity of .25 and .5 mm to give the most detailed results on the Dimensions SST 3D printer.
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