Solid Mechanics Application

From KratosWiki
(Difference between revisions)
Jump to: navigation, search
Line 4: Line 4:
  
 
Continuum Solid Mechanics
 
Continuum Solid Mechanics
 +
 +
== Application contents ==
 +
 +
* [[Solid Mechanics Application Problem Type | Problem Type]]
 +
* [[Solid Mechanics Application Elements | Elements]]
 +
* [[Solid Mechanics Application Conditions | Conditions]]
 +
* [[Solid Mechanics Application Strategies | Strategies]]
 +
* [[Solid Mechanics Application Python Interface | Python Interface]]
 +
* [[Solid Mechanics Application Input Data | Input Data]]
 +
* [[Solid Mechanics Application Constitutive Laws | Constitutive Laws]]
 +
* [[Solid Mechanics Application Utilities | Utilities]]
 +
* [[Solid Mechanics Application Yield Criteria| Yield Criteria]]
 +
 +
  
 
=== Numerical approach ===
 
=== Numerical approach ===

Revision as of 00:24, 19 March 2016

Contents

IN CONSTRUCTION : "we are now building this page"

Theory

Continuum Solid Mechanics

Application contents


Numerical approach

Elements

Element Type Geometry Nonlinearity Material Type
SmallDisplacement Solid 2D,3D Geometries Small Displacement Isotropic
TotalLagrangian Solid 2D,3D Geometries Large Displacement Isotropic
UpdatedLagrangian Solid 2D,3D Geometries Large Displacement Isotropic

List of elements by working space dimension

Dimension Element Type Geometry Nonlinearity Material Type
2D SmallDisplacement Solid 2D Geometries Small Displacement Isotropic
TotalLagrangian Solid 2D Geometries Large Displacement Isotropic
UpdatedLagrangian Solid 2D Geometries Large Displacement Isotropic
3D SmallDisplacement Solid 3D Geometries Small Displacement Isotropic
TotalLagrangian Solid 3D Geometries Large Displacement Isotropic
UpdatedLagrangian Solid 3D Geometries Large Displacement Isotropic

space discretization method

time discretization method

stabilization

Benchmarks

Insert here all the benchmarks of the application.

For every benchmark insert a video or at list a photo (not only a link)

For every benchmark - brief description of the solved problem, if it is a benchmark that can be found in literature, insert the link to the reference or, at least a reference). - reference with a link the location in which you describe all the theory behind Numerical approach.


How to analyse using the current application

GiD is the pre and post processor.....

link to the problem type and to the tutorial already inserted in the kratos-wiki

Application Dependencies

Other Kratos Applications used in current Application

External libraries

Contact

For any additional information please contact with ....

Programming Documentation

Link to trac

Personal tools
Categories