Hex-dominant Meshing Approach based on Frame Field Smoothness | Zendy

Paul-Émile Bernard | Zendy; JeanFrançois Remacle | Zendy; Nicolas Kowalski | Zendy; Christophe Geuzaine | Zendy

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Hex-dominant Meshing Approach based on Frame Field Smoothness

Author(s) -

Paul-Émile Bernard,

JeanFrançois Remacle,

Nicolas Kowalski,

Christophe Geuzaine

Publication year - 2014

Publication title -

procedia engineering

Language(s) - English

Resource type - Journals

SCImago Journal Rank - 0.32

H-Index - 74

ISSN - 1877-7058

DOI - 10.1016/j.proeng.2014.10.382

Subject(s) - hexahedron , polygon mesh , smoothness , field (mathematics) , frame (networking) , tetrahedron , point (geometry) , volume mesh , algorithm , estimator , computer science , mathematics , computational science , geometry , mathematical analysis , topology (electrical circuits) , mesh generation , finite element method , engineering , structural engineering , pure mathematics , combinatorics , telecommunications , statistics

We propose here an indirect approach for building hex-dominant meshes, using the recombination of tetrahedra to create hexahedra. The efficiency of this recombination depends on the location of the initial points. A two-dimensional frame field is obtained on the boundaries by solving an elliptic PDE. We first propose a procedure to extend the two dimensional field inside the volume and to obtain a smooth three-dimensional frame field, used to insert new points. Then, we propose a point insertion algorithm based on a frame field smoothness estimator: new points are preferentially inserted in smooth frame field regions. The meshes obtained clearly exhibit a larger ratio of hexahedra, compared to more straightforward approaches

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