Difference between revisions of "Examples"
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FEAP has a facility for computing [[Hill-Mandel]] averages, stress and tangent tensor components. | FEAP has a facility for computing [[Hill-Mandel]] averages, stress and tangent tensor components. | ||
To use this facility one needs to have a periodic mesh. | To use this facility one needs to have a periodic mesh. | ||
== Lysemer-Kuhlmeyer boundary conditions == | |||
FEAP has a simple [[Lysmer-Kuhlmeyer]] boundary element that can be used to approximate a non-reflecting | |||
boundary in a transient computation. | |||
== Contact Problems == | == Contact Problems == | ||
Revision as of 07:15, 21 September 2021
The following examples are provided to illustrate how users could use FEAP to solve some basic problems.
Static Analyses
Thermal Analyses
Example of a hollow thermal tube with external temperatures and inner fluxes
Example of a 3D hollow thermal tube with external temperatures and inner fluxes
Coupled Thermo-mechanical Analyses
Hill-Mandel Computations
FEAP has a facility for computing Hill-Mandel averages, stress and tangent tensor components. To use this facility one needs to have a periodic mesh.
Lysemer-Kuhlmeyer boundary conditions
FEAP has a simple Lysmer-Kuhlmeyer boundary element that can be used to approximate a non-reflecting boundary in a transient computation.
Contact Problems
Isogeometric Analyses
J-Integral Computation
FEAP has a facility for computing J Integrals (energy release rates) in elastic problems. The feature is slightly experimental so please verify that you are getting sensible answers for your class of problems before relying on it.