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1 | == Community Finite Element Models for Fault Systems and Tectonics Studies Benchmarks == | |||
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2 | Benchmark descriptions for the Working Group for the Development of Community Finite Element Models for Fault Systems and Tectonics Studies | |||
3 | ||||
4 | [/groups/shortterm/wiki/BenchmarksOLD/OverviewOLD '''Overview of Goals and Objectives''']:: | |||
5 | Goals and objectives, general methodology for the Working Group for the Development of Community Finite Element Models for Fault Systems and Tectonics Studies | |||
6 | [/groups/shortterm/wiki/BenchmarksOLD/Benchmark1OLD '''Benchmark 1''']:: | |||
7 | Viscoelastic relaxation of stresses resulting from an imposed uniaxial strain. No body forces are imposed. Material should have infinite bulk viscosity (i.e., should not relax in volume, only in shear). | |||
8 | [/groups/shortterm/wiki/BenchmarksOLD/Benchmark2OLD '''Benchmark 2''']:: | |||
9 | Various tests on the implementation of gravity in viscoelastic finite element models. All analyses are 2D plane strain and assume uniaxial strain boundary conditions. | |||
10 | [/groups/shortterm/wiki/BenchmarksOLD/Benchmark3OLD '''Benchmark 3''']:: | |||
11 | Viscoelastic relaxation of stresses resulting from an imposed simple shear strain. No body forces are imposed. | |||
12 | [/groups/shortterm/wiki/BenchmarksOLD/Benchmark4OLD '''Benchmark 4''']:: | |||
13 | Viscoelastic (Maxwell) relaxation of stresses from a single, finite, strike-slip earthquake. | |||
14 | [/groups/shortterm/wiki/BenchmarksOLD/Benchmark5OLD '''Benchmark 5''']:: | |||
15 | Viscoelastic (Maxwell) relaxation of stresses from a single, finite, dip-slip earthquake in 3D without body forces. The analytical solution for the elastic displacement (available at geoweb.mit.edu/fe) is applied at the boundaries and held fixed through time. | |||
16 | [/groups/shortterm/wiki/BenchmarksOLD/Benchmark6OLD '''Benchmark 6''']:: | |||
17 | Viscoelastic (Maxwell) relaxation of stresses from a single, finite, dip-slip earthquake in 3D with body forces. | |||
18 | [/groups/shortterm/wiki/BenchmarksOLD/Benchmark7OLD '''Benchmark 7''']:: | |||
19 | Elastic solution for a circular strike-slip fault. The conceptual model is an elastic disk of radius 200 km, with a circular left-lateral strike-slip fault forming an inner plug which rotates inside the outer annulus. Because of the symmetry of the problem, radial displacements should vanish and only the first quadrant needs to be modeled. If required, a mesh using cylindrical coordinates can be downloaded from http://geoweb.mit.edu/fe/. | |||
20 | ||||
21 | == [/groups/shortterm/wiki/Benchmarks/MainPage/BenchmarksOLD/CommunityBlockModel Community Block Model] == | |||
22 | ||||
23 | == !LaGrit Examples == | |||
24 | [/groups/shortterm/wiki/Benchmarks/MainPage/BenchmarksOLD/LGExample1 Example 1]:: | |||
25 | Intersect Two 3D Tet Meshes, Refine Volume of Intersection, Remove Intersecting Tets | |||
26 | [/groups/shortterm/wiki/Benchmarks/MainPage/BenchmarksOLD/LGExample2 Example 2]:: | |||
27 | Hexahedra to 5, 6 or 24 Tetrahedra | |||
28 | [/groups/shortterm/wiki/Benchmarks/MainPage/BenchmarksOLD/LGExample3 Example 3]:: | |||
29 | Intersect Two Surfaces, Make Hole in Surface Defined by Intersection | |||
30 | [/groups/shortterm/wiki/Benchmarks/MainPage/BenchmarksOLD/LGExample4 Example 4]:: | |||
31 | Intersect Two Surfaces, Extract Line Object Defined by Surface Intersections | |||
32 | [/groups/shortterm/wiki/Benchmarks/MainPage/BenchmarksOLD/LGExample5 Example 5]:: | |||
33 | Triangulate a Polygon, Use refine, smooth to Change Mesh Size and Quality | |||
34 | [/groups/shortterm/wiki/Benchmarks/MainPage/BenchmarksOLD/LGExample6 Example 6]:: | |||
35 | Compute Median Point of Tri, Quad, Hex, Tet and Color By Median Value | |||
36 | [/groups/shortterm/wiki/Benchmarks/MainPage/BenchmarksOLD/LGExample7 Example 7]:: | |||
37 | Triangulate Multiple Polygons and Modify Triangle Size With massage to Refine, Derefine and Smooth. | |||
38 | [/groups/shortterm/wiki/Benchmarks/MainPage/BenchmarksOLD/LGExample8 Example 8]:: | |||
39 | Create a Triangulation With a Degenerate Internal Edge Which Creates a Non-Matching Triangulation | |||
40 | - | Example 9::
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+ | [/groups/shortterm/wiki/Benchmarks/MainPage/BenchmarksOLD/LGExample9 Example 9]::
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41 | Connect a Tet Mesh to a Hex Mesh Using Pyramid Elements | |||
42 | [/groups/shortterm/wiki/Benchmarks/MainPage/BenchmarksOLD/LGExample10 Example 10]:: | |||
43 | Use PSETS and set Z(x,y) Surface To Max(Z(x,y)) of Two Surfaces |