“CleanUp”, written to improve an all quad mesh, looks at improving node connectivity, boundary and flange patterns, quad shape, and to some extent, quad size. Unless an all quadrilateral (quad) finite element mesher is of a high quality, the mesh it produces can contain misshapen quads. This paper will describe “CleanUp”, written to improve an all quad mesh. CleanUp looks at improving node connectivity, boundary and flange patterns, quad shape, and to some extent, quad size. CleanUp is currently used in conjunction with the Paver algorithm developed by Sandia National Laboratories and is a part of their CUBIT software.
The generation of hexahedral meshes for assembly geometry: survey
Computer Implementation of The Finite Element Method
PDF] “CleanUp: Improving Quadrilateral Finite Element Meshes
PDF) Quadrilateral Mesh Improvement
Surface Smoothing and Quality Improvement of Quadrilateral/Hexahedral Meshes with Geometric Flow
ME6603 - FINITE ELEMENT ANALYSIS UNIT - V NOTES AND QUESTION BANK
PDF] “CleanUp: Improving Quadrilateral Finite Element Meshes
Adaptive mesh coarsening for quadrilateral and hexahedral meshes
PDF) Topology Modification of Hexahedral Meshes Using Atomic Dual
PDF) Adaptive Finite Element Methods on Quadrilateral Meshes without Hanging Nodes
Papers on Meshing and Triangulation
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