# Solid Mechanics Application

(Difference between revisions)
 Revision as of 19:48, 19 March 2016 (view source)Cpuigbo (Talk | contribs)← Older edit Revision as of 20:07, 19 March 2016 (view source)Cpuigbo (Talk | contribs) Newer edit → Line 6: Line 6: == Application contents == == Application contents == + + === Interface === * [[Solid Mechanics Application Problem Type | Problem Type]] * [[Solid Mechanics Application Problem Type | Problem Type]] − * [[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 Input Data | Input Data]] − * [[Solid Mechanics Application Constitutive Laws | Constitutive Laws]] − * [[Solid Mechanics Application Utilities | Utilities]] − * [[Solid Mechanics Application Yield Criteria| Yield Criteria]] + === Solving scripts === + * [[Solid Mechanics Application Python Interface | Python Interface]] === Numerical approach === === Numerical approach === Line 23: Line 21: * [[Solid Mechanics Application Elements | Elements]] * [[Solid Mechanics Application Elements | Elements]] + ==== Boundary Conditions ==== − == List of elements by working space dimension == + * [[Solid Mechanics Application Processes | Processes]] − {| class="wikitable" width="100%" style="text-align:left; background:#d0d9dd; border:0px solid #e1eaee; font-size:100%; -moz-border-radius-topleft:0px; -moz-border-radius-bottomleft:0px; padding:0px 0px 0px 0px;" valign="top" + − !Dimension + − !Element + − !Type + − !Geometry + − !Nonlinearity + − !Material Type + − |-style="background:#F1FAFF;" + − | rowspan="3" | 2D + − | [[SmallDisplacement]] + − | Solid + − | 2D Geometries + − | Small Displacement + − | Isotropic + − |-style="background:#F1FAFF;" + − | [[TotalLagrangian]] + − | Solid + − | 2D Geometries + − | Large Displacement + − | Isotropic + − |-style="background:#F1FAFF;" + − | [[UpdatedLagrangian]] + − | Solid + − | 2D Geometries + − | Large Displacement + − | Isotropic + − |-style="background:#F1FAFF;" + − | rowspan="3" | 3D + − | [[SmallDisplacement]] + − | Solid + − | 3D Geometries + − | Small Displacement + − | Isotropic + − |-style="background:#F1FAFF;" + − | [[TotalLagrangian]] + − | Solid + − | 3D Geometries + − | Large Displacement + − | Isotropic + − |-style="background:#F1FAFF;" + − | [[UpdatedLagrangian]] + − | Solid + − | 3D Geometries + − | Large Displacement + − | Isotropic + − |} + − ==== space discretization method ==== + ==== Loads ==== − ==== time discretization method ==== + − ==== stabilization ==== + * [[Solid Mechanics Application Conditions | Conditions]] + + ==== Constitutive Laws ==== + + * [[Solid Mechanics Application Constitutive Laws | Constitutive Laws]] + * [[Solid Mechanics Application Yield Criteria| Yield Criteria]] + * [[Solid Mechanics Application Hardening Laws| Hardening Laws]] + * [[Solid Mechanics Application Flow Rules| Flow Rules]] + + ==== Time Integration Schemes ==== + + * [[Solid Mechanics Application Schemes | Schemes]] + + ==== Solution Strategies ==== + + * [[Solid Mechanics Application Strategies | Strategies]] + + ==== Utilities ==== + + * [[Solid Mechanics Application Utilities | Utilities]] == Benchmarks == == Benchmarks == Line 95: Line 66: == Application Dependencies == == Application Dependencies == − === Other Kratos Applications used in current Application === + + === Other Kratos Applications used in current application: === + Optional (ExternalSolversApplication) + === External libraries === === External libraries ===

## Revision as of 20:07, 19 March 2016

IN CONSTRUCTION : "we are now building this page"

## Theory

Continuum Solid Mechanics

## 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:

Optional (ExternalSolversApplication)