Automatic decomposition and efficient semi-structured meshing of complex solids

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    In this paper, a novel approach to automatically sub-divide a complex geometry and apply an efficient mesh is presented. Following the identification and removal of thin-sheet regions from an arbitrary solid using the thick/thin decomposition approach developed by Robinson et al. [1], the technique here employs shape metrics generated using local sizing measures to identify long-slender regions within the thick body. A series of algorithms automatically partition the thick region into a non-manifold assembly of long-slender and complex sub-regions. A structured anisotropic mesh is applied to the thin-sheet and long-slender bodies, and the remaining complex bodies are filled with unstructured isotropic tetrahedra. The resulting semi-structured mesh possesses significantly fewer degrees of freedom than the equivalent unstructured mesh, demonstrating the effectiveness of the approach. The accuracy of the efficient meshes generated for a complex geometry is verified via a study that compares the results of a modal analysis with the results of an equivalent analysis on a dense tetrahedral mesh.
    Original languageEnglish
    Number of pages16
    Pages (from-to)345-361
    JournalEngineering With Computers
    Journal publication dateJul 2014
    Issue number3
    Volume30
    Early online date05 Dec 2012
    DOIs
    Publication statusPublished - Jul 2014
    Event20th International Meshing Roundtable - Paris, France
    Duration: 01 Oct 201101 Oct 2011

    ID: 2493948