Unstructured options refer to the parameters controlling the behavior of the unstructured meshes.
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- Rfast mesher generates the meshes faster because it works in the 2D space of the NURBS surface, and after the mesh is generated it map the nodes in the 3D space. It makes the mesher faster, but it has the drawback of providing with lower quality element in case the NURBS surface is highly distorted.
- Rsurf mesher follows an advancing front technique directly in the 3D space, so it is a little bit slower than RFast. However, it tends to provide with better quality meshes.
- MinElem mesher generates meshes with the minimum number of elements needed to represent the shape of the surface, according to the chordal error parameters defined in Chordal error. This kind of meshes are commonly used for visualization purposes, or to consider kinematic simulations, where the quality of the triangles (in terms of angle) is not so relevant.
Note: GiD Try only with the selected surface mesher: option to force use only this mesher for surfaces, otherwise GiD can try another mesher internally when one of them fails to generate the mesh for one some surface.
- GiD can use three kinds of unstructured volume meshers (all of them generate tetrahedra):
- Advancing front: This volume mesher is based on the advancing front technique. This mesher tends to give good quality tetrahedra, but it is not as fast as the other methods. It generates the meshes volume by volume (so all the surfaces of the model are previously meshed). It requires a very good quality of the contour surfaces meshes of the volume in order to be successful.
- Tetgen: The unstructured volume mesher is based on the Delaunay algorithm. This mesher is a faster than the Advancing front one, but it tends to give lower quality tetrahedra. This mesher is developed by the Numerical Mathematics and Scientific Computing research group of the Weierstrass Institute for Applied Analysis and Stochastics.
- OctTree: Octree-based tetrahedra mesher. This is a very robust and fast mesher. It generates the mesh of all the connected volumes together. As an octree-based mesher, it may refine too much the mesh in given regions, and it may present an alignment of the nodes of the mesh following the three main directions of the octree. If some part of the model has structured properties, this mesher is automatically discarded, and GiD uses some of the previous ones.
Note: GiD Try only with the selected volume mesher: option to force use only this mesher for volumes, otherwise GiD can try another mesher internally when one of them fails to generate the mesh for one some volume.
Skip entities automatically
These variables control whether a line or a point is skipped in the meshing process. Using this option, meshes can be generated with fewer elements than others because it is less dependent on the dimensions of geometrical surfaces. However, it is slower and can fail for distorted surface patches.
It has to be considered that an entity cannot be skipped considering some situations:
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