![]() ![]() Tip: The requirement for mesh surface creation is that the U-direction line and the V-direction line intersect each other, but the internal curves of the U-direction line and the V-direction line do not intersect each other.Execute mesh surface command① ![]() ⑥Select the generated surface, ⑦right click on the surface layer to pop up the menu, ⑧change the object layer It is recommended to create a layer to organize and display the surface, as follows: ①Right click to create a surface layer, ②~⑤Set the material, and choose a color that is easy to distinguish. ②Select a closed curve, ③Enter or right-click to confirm. ①Choose the command to generate surface by plane curve Operate as follows: Select the curve ①, ②, ③ in turn, and generate a closed plane curve through the combination command ④ To create a plane requires a closed plane curve, so you first need to create such a plane boundary curve. This article uses plane commands and mesh surface commands to create ship surface. The hull surface is usually composed of plane and surfaces. Mesh surfaces and lofted surfaces also have such requirements. The reasonable modeling principle is to select lines in two directions that are as perpendicular to each other as possible to generate the surface. The surface in the rhinoceros is a B-spline surface, which is described by two-direction curves (U-direction curve and V-direction curve). Use these characteristic line to partition the hull. The flat bottom line and bow outline of this article are obvious. You should first analyze and perform reasonable faceting based on your own ship type, and then model it by area. There are many different hull shapes, and there is no unified faceting technique. Tips: When selecting lines in the graphical interface, the grid lines sometimes affect the selection, and the display should be turned off. The article does not introduce it, but focuses on the basic operations of rhino hull modeling from the following three aspectsĭouble-click ① to display the isometric view window only, and click ② to display the zoom setting to adjust the graph The hull space line used in this article is generated by a professional hull line modeling program. There are two time consuming process to create surfaces in Rhino : creating space lines and determining facets division. The hull surface created by Rhino can be used for CFD software for hydrodynamic performance calculations, into professional software for loading and stability calculations, and related designers to make exquisite 3D renderings. 3DĬAD models can be downloaded as polygonal 3D meshes also.A powerful 3D modeling software, here it is used to model the hull surface.Ī concise tutorial that describes how to generate hull surfaces in the Rhino program based on the 3D space hull line generated by a hull line modeling program. prt), SolidEdge, CATIA, ACIS and other CAD/CAM/CAE packages. x3d).ĭownloadable 3D CAD Solid Object file formats available: If you need, the following file formats can be exported from these above programs: 3D Studio (. c4d).ĭownloaded 3D Models can be used in 3ds Max, Blender, Maya, Lightwave, Softimage, Cinema 4D, Houdini, Daz Studio, Modo, Unity 3D, Unreal Engine, SketchUp, ZBrush, Poser and other 3D modeling software. Downloadable 3D Polygonal Mesh file formats available:ģds Max (. ![]()
0 Comments
Leave a Reply. |
AuthorWrite something about yourself. No need to be fancy, just an overview. ArchivesCategories |