The Solid Conform SOP creates a tetrahedral mesh that largely conforms to the input mesh. This means that the surface of the tetrahedral mesh conforms to the original surface wherever possible. In places where the input mesh intersects itself, the tetrahedral mesh may not exactly conform to the input triangles and further processing may be required to remove extraneous tetrahedra, however these cases are extremely rare.
Use this SOP instead of the Tetrahedralize SOP to convert surface meshes into solid tetrahedralizations.
If disabled, this option produces the simplest tetrahedralization of the input. If enabled, the tetrahedralization is refined exposing the sizing parameters below.
The following parameters control the sizes of generated tetrahedra. Each scale is multiplied by the Base Size, which can be specified manually or computed automatically.
If enabled, this option sets the size of the model in the input. This enables the modification of the model without changing the relative scale of the generated tets. If disbaled, the base size of the model is determined automatically as the diameter. In this mode, the sizes of generated tets are independent of the global scale of the model. All sizing parameters below as scaled using the manually set or automatically computed Base Size.
Max Tet Scale
This parameter controls the maximum size of individual generated tets. The volume of a regular tetrahedron with side length equal to Max Tet Size sets the maximum volume of resultant tetrahedra.
Selects the method to control sizes of tetrahedra on the surface of the resulting tetrahedralization. Interior tetrahedra are sized based on sizes interpolated from
scales an already relative quantity – the feature size.
Output Surface Triangles
Output surface triangles along with the tetrahedra.
Allow Surface Modifications
Allow for the tetrahedralization add points on the surface to subdivide input polygons.
Use SDF for Cavity Filling
This parameter uses an underlying SDF voxlization of the input mesh to guide which parts of the tetrahedral mesh are to be considered interior. The underlying SDF is eroded by one voxel, so it doesn’t affect how the tet mesh conforms to the surface – only the interior of the mesh i corrected by the SDF. This option is particularly useful when the input mesh contains small cavities that should be filled with tets. For instance, if an input character model that has a small opening in the mouth, without this option the mouth may be missing tetrahedrons. Use this option to close subtle holes in the mesh.
This parameter sets the voxel size of the underlying SDF used to determine the inside and outside of the solid represented by the input mesh. A lower value will produce a better approximation at a performance cost.
Adds a red color to points showing where the input mesh intersected itself. Use this as a guide to manually remove self-intersections from the input, which will improve the resulting tetrahedralization.