DEM Application

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WARNING: this page is not finished, we are writing it still...

The DEM Kratos Team


Contents

Theory

This application solve the the equations.... Mathematical approach to the problems.

Nothing numerical

Integration Schemes

The contact laws

Concept of indentation

Normal Force Laws

Tangential Force Laws

Damping Force Laws

(restit. coef)


Numerical approach (implementation in Kratos)

Structure of the code (Strategy, Scheme, Element, Node, Utilities, functions frequently used like FastGet,...)


List of elements

Spheric Particle

Spheric Continuum Particle

Spheric Swimming Particle

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

Pre-Process

GUI's & GiD

D-DEMPack

Discontinuum / non-cohesive

C-DEMPack

Continuum / Cohesive

F-DEMPack

Fluid coupling

Post-Process

Application Dependencies

The Swimming DEM Application depends on the DEM application

Other Kratos Applications used in current Application

FEM-DEM


Contact

Contact us for any question regarding this application:


-Miguel Angel Celigueta: maceli@cimne.upc.edu

-Guillermo Casas: gcasas@cimne.upc.edu

-Salva Latorre: latorre@cimne.upc.edu

-Miquel Santasusana: msantasusana@cimne.upc.edu

-Ferran Arrufat: farrufat@cimne.upc.edu

Programming Documentation

You can access the calculation code through this site.

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