Post on 15-Mar-2021
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Crustal Deformation Modeling TutorialMeshing Strategies
Charles Williams, Brad Aagaard, and Matthew Knepley
June 24, 2013
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Meshing Complex GeometrySteps in creating a mesh
Determine geometric features neededFault geometryTopographySharp structural boundariesMagma sources with complex geometry
Create spline curve (2D) or NURBS surface (3D) in CUBITIf using surface in several models export it for future useUse surfaces within CUBIT to webcut volumesChoose discretization according to type of problem
Meshing General steps
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Example problems2D and 3D meshing of nonplanar geometry and variable discretization
Two-dimensional subduction zone example using curvessrc/pylith/examples/2d/subduction
Top of slabBottom of slabTopography/bathymetry
Three-dimensional subduction zone example using NURBSsurfacessrc/pylith/examples/meshing/surface nurbs/subduction
Subduction interface geometrySplay fault geometryTopography/bathymetry
How to use CUBIT’s sizing function to vary discretization sizesrc/pylith/examples/meshing/cubit cellsize
Meshing Meshing examples
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2D Subduction ZoneMesh with subduction thrust, slab bottom, and topo/bathymetry
Continental crust
Continental mantle
Oceanic crust
Oceanic mantle
Coseismic region
Meshing 2D Example
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3D Subduction ZoneMesh with subduction thrust, splay fault, and topo/bathymetry
Subduction thrust
Splay fault
Meshing 3D Example
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Using user-defined fields to control mesh sizeExample 1: Use a spatial database to control cell size
Meshing CUBIT Sizing Function
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Using user-defined fields to control mesh sizeExample 2: Use an analytical function to control cell size
Meshing CUBIT Sizing Function