- #Solidworks 2005 how to sheet metal skin
- #Solidworks 2005 how to sheet metal software
- #Solidworks 2005 how to sheet metal professional
The skin shape is exact if the lofted skin is between two frames of the same cross section but becomes stranger as the shapes of the frames differ more from each other. The resulting lines do not lie on the surface of a sheet metal wrap and you can get some strange shapes. Instead they simply divide each curve into say 10 segments of equal length and connect the corresponding points. However, in Solidworks, for these types of developments, they don't do this. These lines should join points on each frame that have the same tangent slope (see Raymers book on aircraft design for an explanation). If you wrap a skin around two frames the sheet can only curve one way and essentially the surface is defined by a series of straight lines that lie on the surface that join points on the frames at each end. The reason for this is a bit difficult to explain but I will try. The people who wrote this clearly don't understand how to loft a development like this on a drawing board and don't understand the more general principles of lofting developments, consequently they got it wrong when they wrote the software.
However, for more complex shapes that are of interest to aero engineers, say a lofted skin between frames in a fuselage it does not work properly. The sort of developments that can be readily produced on a drawing board by triangulation. It works fine in simple cases such as parts with simple flanges and parts such as classic sheet metal ducts for air conditioning etc that might be a simple circle to circle or circle to square loft.
#Solidworks 2005 how to sheet metal software
The software can in general flatten parts folded from a flat sheet using flanges etc or lofted bends between cross sections (such as wing and fuselage skins).
#Solidworks 2005 how to sheet metal professional
However, I have commercial licences for Solidworks Standard and Professional and these both flatten sheet metal. Even if the 3D views are used in conventional 2D engineering drawings, all of the PMI is localized within the SOLIDWORKS part model.I cannot comment on the student version of Solidworks. This 3D view can be used to export to a 3D PDF, Edrawings, or just saved in SOLIDWORKS for anyone to access.Īnd just like that, SOLIDWORKS MBD has removed an extra step from the design to fabrication workflow. As with any SOLIDWORKS table, the bend table can be exported as a separate table.Īfter creating the bend table, the final step of the process is to generate a 3D view with the derived flattened pattern configuration. The bend table can be used to consolidate all of the directions, radii, and bend angles into one location. Once the bend notes have been created, simply add a bend table from the tables drop down menu. This includes the bounding box in the 2D view for easy reference. In any sheet metal part, right click on the flattened pattern and select ‘Insert bend notes.’ The flattened pattern includes all of the bend notes on the flattened view. SOLIDWORKS 2019 expansion of Model Based Definition to sheet metal components allows for designers to integrate the necessary product manufacturing information (PMI) directly into their sheet metal parts. By Steven Murphy – Application Specialist at SolidXpertsĮngineers are always looking for faster and more efficient means of providing manufacturing information for their models.