GMS:3D Mesh Module: Difference between revisions

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{{3D Mesh links}}
{{3D Mesh links}}
The 3D Mesh module is used to create and edit 3D finite element meshes. Once a mesh is constructed, the [[GMS:FEMWATER|FEMWATER]] interface can be used to assign boundary conditions and analysis parameters and perform a FEMWATER analysis.
The 3D Mesh module is used to [[GMS:Creating a 3D Mesh|create]] and [[GMS:Editing a 3D Mesh|edit]] 3D finite element meshes. A 3D mesh consists of nodes, elements, and faces. A 3D mesh can be created from a 2D mesh, a 3D grid, 3D scatter points, or by using the automated meshing tools in GMS.  


[[Image:Sample_FEMWATER.JPG|thumb|none|left|300 px|Iso-surface of Pressure Head from a FEMWATER Simulation]]
Once a mesh is constructed, the [[GMS:FEMWATER|FEMWATER]] interface can be used to assign boundary conditions and analysis parameters and perform a FEMWATER analysis.
 
The module includes [[GMS:3D Mesh Tool Palette|tools]] for manipulating 3D meshes as well as its own [[GMS:3D Mesh Commands|menu commands]] and [[GMS:3D Mesh Display Options|display options]]. 3D meshes can be [[GMS:Converting 3D Meshes to Other Data Types|converted]] into 2D meshes, 3D scatter points, Ugrids, or solids. The module also can [[GMS:Classify Material Zones|classify material zones]] and use [[GMS:Isosurfaces|isosurface]] rendering.
 
:[[Image:Sample_FEMWATER.JPG|thumb|none|left|350 px|Isosurface of Pressure Head from a FEMWATER Simulation]]
 
Currently, only one 3D mesh can exist in a GMS project. GMS is able to work with large or complicated 3D finite element meshes.
 
The 3D Mesh module can be added to a [http://www.aquaveo.com/software/gms-pricing paid edition] of GMS.
[[Category:Link to Store]]
 
==3D Element Types==
Four types of 3D elements are supported by GMS: eight node hexahedra, six node prisms or wedges, four node tetrahedra, and five node pyramids. Hexahedra and wedges are created by projecting a 2D mesh. Tetrahedral elements are constructed with the '''Tessellate''' command or they can be created elsewhere and imported into GMS.
 
:[[Image:ElemTypes1.png|thumb|none|275 px|Types of 3D elements supported by GMS]]


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[[Category:3D Mesh]]
[[Category:3D Mesh]]
 
[[Category:Mesh Modules]]
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Latest revision as of 14:25, 13 September 2017

3D Mesh Module
Sample FEMWATER.JPG
3D Mesh
Creating a 3D Mesh
Editing a 3D Mesh
Converting 3D Meshes to Other Data Types
More
3D Mesh Display Options
3D Mesh Tool Palette
ADH Display Options
Solids to Layered Mesh
3D Mesh Commands

The 3D Mesh module is used to create and edit 3D finite element meshes. A 3D mesh consists of nodes, elements, and faces. A 3D mesh can be created from a 2D mesh, a 3D grid, 3D scatter points, or by using the automated meshing tools in GMS.

Once a mesh is constructed, the FEMWATER interface can be used to assign boundary conditions and analysis parameters and perform a FEMWATER analysis.

The module includes tools for manipulating 3D meshes as well as its own menu commands and display options. 3D meshes can be converted into 2D meshes, 3D scatter points, Ugrids, or solids. The module also can classify material zones and use isosurface rendering.

Isosurface of Pressure Head from a FEMWATER Simulation

Currently, only one 3D mesh can exist in a GMS project. GMS is able to work with large or complicated 3D finite element meshes.

The 3D Mesh module can be added to a paid edition of GMS.

3D Element Types

Four types of 3D elements are supported by GMS: eight node hexahedra, six node prisms or wedges, four node tetrahedra, and five node pyramids. Hexahedra and wedges are created by projecting a 2D mesh. Tetrahedral elements are constructed with the Tessellate command or they can be created elsewhere and imported into GMS.

Types of 3D elements supported by GMS