GMS:2D Mesh Module: Difference between revisions

From XMS Wiki
Jump to navigationJump to search
No edit summary
 
(23 intermediate revisions by one other user not shown)
Line 1: Line 1:
{{2D Mesh links}}
{{2D Mesh links}}
The 2D Mesh module is used to construct two-dimensional finite element meshes. Numerous tools are provided for automated mesh generation and mesh editing. 2D meshes are used for [[GMS:SEEP2D|SEEP2D]] modeling and to aid in the construction of 3D meshes. The figures below show an example of a SEEP2D model and a [[GMS:3D Mesh Module|3D mesh]] created using the 2D Mesh Module.
The 2D Mesh module is used to construct two-dimensional finite element meshes. The mesh consists of nodes that are grouped together to form elements. Numerous [[GMS:2D Mesh Tool Palette|tools]] are provided for [[GMS:Creating a 2D Mesh|automated mesh generation]] and [[GMS:Editing 2D Meshes|mesh editing]]. 2D meshes are used for [[GMS:SEEP2D|SEEP2D]] modeling and to aid in the construction of 3D meshes.  
 
The figures below show an example of a SEEP2D model and a [[GMS:3D Mesh Module|3D mesh]] created using the 2D Mesh module.


{|
{|
|-
|-
|[[Image:2d_to_3d_mesh.gif|thumb|500 px|3D Mesh Created by Extruding a 2D Mesh]]
|[[Image:2d_to_3d_mesh.png|thumb|none|300 px|3D Mesh created by extruding a 2D mesh]]
|-
|valign="top"|[[Image:samp_seep.png|thumb|none|400 px|Sample SEEP2D problem]]
|[[Image:samp_seep.gif|thumb|500 px|Sample SEEP2D Problem]]
|}
|}
The module contains its own [[GMS:2D Mesh Settings|settings]] and [[GMS:2D Mesh Display Options|display options]] including options to for contour and vector display. Currently, GMS only allows one 2D mesh to be included in a project.
Datasets in a mesh store scalar or vector values at each node. Individual datasets can be duplicated or exported.
2D mesh data can be exported from GMS by right-clicking on the 2D mesh and selecting the '''Export''' command. The entire mesh can be exported as a Text GMS 2D Mesh File (*.2dm), FEFLOW ASCII FEM Format (*.fem), Polygon Shapefile (*.shp), or Point Shapefile (*.shp).
The 2D Mesh module can be added to a [http://www.aquaveo.com/software/gms-pricing paid edition] of GMS.
[[Category:Link to Store]]
==Mesh Element Types==
Elements are used to describe the area to be modeled. Elements are formed by joining nodes. The element types supported vary from model to model.  Element types include:
* Three-node linear triangle
* Six-node quadratic triangle
* Eight-node "serendipity" quadrilateral
* Nine-node "Lagrangian" quadrilateral


{{Navbox GMS}}
{{Navbox GMS}}
[[Category:2D Mesh]]
[[Category:2D Mesh]]
[[Category:Mesh Modules]]

Latest revision as of 19:32, 28 September 2017

2D Mesh Module
2d mesh.png
2D Mesh
Creating a 2D Mesh
Editing 2D Meshes
2D Mesh Settings
Converting a 2D Mesh to Other Types of Data
More
2D Mesh Display Options
2D Mesh Polygon Attributes
2D Mesh Tool Palette
SEEP2D
Solids to Layered Mesh
2D Mesh Commands

The 2D Mesh module is used to construct two-dimensional finite element meshes. The mesh consists of nodes that are grouped together to form elements. Numerous tools are provided for automated mesh generation and mesh editing. 2D meshes are used for SEEP2D modeling and to aid in the construction of 3D meshes.

The figures below show an example of a SEEP2D model and a 3D mesh created using the 2D Mesh module.

3D Mesh created by extruding a 2D mesh
Sample SEEP2D problem

The module contains its own settings and display options including options to for contour and vector display. Currently, GMS only allows one 2D mesh to be included in a project.

Datasets in a mesh store scalar or vector values at each node. Individual datasets can be duplicated or exported.

2D mesh data can be exported from GMS by right-clicking on the 2D mesh and selecting the Export command. The entire mesh can be exported as a Text GMS 2D Mesh File (*.2dm), FEFLOW ASCII FEM Format (*.fem), Polygon Shapefile (*.shp), or Point Shapefile (*.shp).

The 2D Mesh module can be added to a paid edition of GMS.

Mesh Element Types

Elements are used to describe the area to be modeled. Elements are formed by joining nodes. The element types supported vary from model to model. Element types include:

  • Three-node linear triangle
  • Six-node quadratic triangle
  • Eight-node "serendipity" quadrilateral
  • Nine-node "Lagrangian" quadrilateral