Go to the source code of this file.
Classes | |
| class | UnstructuredSolidProblem< ELEMENT > |
| Unstructured solid problem. More... | |
Namespaces | |
| Global_Physical_Variables | |
| //////////////////////////////////////////////////////////////////// //////////////////////////////////////////////////////////////////// | |
Functions | |
| void | Global_Physical_Variables::constant_pressure (const Vector< double > &xi, const Vector< double > &x, const Vector< double > &n, Vector< double > &traction) |
| Constant pressure load. The arguments to this function are imposed on us by the SolidTractionElements which allow the traction to depend on the Lagrangian and Eulerian coordinates x and xi, and on the outer unit normal to the surface. Here we only need the outer unit normal. More... | |
| int | main (int argc, char **argv) |
| Demonstrate how to solve an unstructured solid problem. More... | |
Variables | |
| double | Global_Physical_Variables::Nu =0.3 |
| Poisson's ratio. More... | |
| ConstitutiveLaw * | Global_Physical_Variables::Constitutive_law_pt =0 |
| Pointer to constitutive law. More... | |
| double | Global_Physical_Variables::P = 0.0 |
| Uniform pressure. More... | |
| int main | ( | int | argc, |
| char ** | argv | ||
| ) |
Demonstrate how to solve an unstructured solid problem.
Definition at line 419 of file unstructured_adaptive_solid.cc.
References Global_Physical_Variables::Constitutive_law_pt, UnstructuredSolidProblem< ELEMENT >::doc_solution(), UnstructuredSolidProblem< ELEMENT >::get_strain_energy(), Global_Physical_Variables::Nu, Global_Physical_Variables::P, and UnstructuredSolidProblem< ELEMENT >::set_incompressible().