Creating modified cavities in 3D models.
1 visualización (últimos 30 días)
Mostrar comentarios más antiguos
Luke Benham
el 14 de Jun. de 2020
Comentada: Nathan Welch
el 30 de Jun. de 2020
The only difference is I wish to have more control over the size of the cube and sphere, possibly add multiple, and control the location of the sphere within the 3D space, is any/all of this possible?
3 comentarios
Nathan Welch
el 30 de Jun. de 2020
I'm having a similar issue that I posted here
However, I wish to mesh the internal cavity and include it in my model. So the cavity mesh must match up with the body mesh, i.e. same nodes and same faces at the interface surface.
Is this possible in MATLAB? The example that you reference above does something close but it isn't very good as the 'mesh' that is used to model the spherical cavity is just a set of terrible tetrahedrals not a delaunay type mesh.
I know about other meshing softwares, GMSH etc, but I want something in MATLAB (even if I have to write it myself) as I need to do a lot of optimisation and solving PDEs, whilst updating meshes and carrying out incremental alterations - rather than entirely recreating them. My BIG stumbling block is just getting even a basic, terribly performing discretization method for an arbitrary geometry.
Respuesta aceptada
ADSW121365
el 15 de Jun. de 2020
Editada: ADSW121365
el 15 de Jun. de 2020
All of this is definitely possible, but the inbuilt CAD capabilities/geometry design in MATLAB aren't its strongest point.
From experience complicated geometries generally fall into two catagories for use in the toolbox:
- Direct Geometry Design Inside an external mesh generator: See a question I asked for nested cubes on stackexchange here. GMSH is free, robust, has inbuilt optimisation and isn't too hard to learn, though finding anything in the documentation is long. There are many other mesh generators, but GMSH also has a direct export to a .m file for MATLAB.
- CAD Design & Creation of an STL/BREP/STEP file depending on the geometry, subsequent external meshing then importing to MATLAB. Some questions I've answered on this forum which maybe helpful to this approach can be found here and here
Edit: The approach via alphashapes mentioned in the comments is actually really good for this type of problem and worth considering.
4 comentarios
ADSW121365
el 15 de Jun. de 2020
The approach suggested is actually really good - I'm thinking too generally, the CAD approach allows a drag-and-drop type approach to geometry design which is probably more beneficial when you wish to consider complicated embedded stuctures.
Más respuestas (0)
Ver también
Categorías
Más información sobre Geometry and Mesh en Help Center y File Exchange.
Community Treasure Hunt
Find the treasures in MATLAB Central and discover how the community can help you!
Start Hunting!