Go to the source code of this file.
Classes | |
| class | ShellMesh< ELEMENT > |
| A 2D Mesh class. The tube wall is represented by two Lagrangian coordinates that correspond to z and theta in cylindrical polars. The required mesh is therefore a 2D mesh and is therefore inherited from the generic RectangularQuadMesh. More... | |
| class | ShellProblem< ELEMENT > |
Namespaces | |
| Global_Physical_Variables | |
| Global variables that represent physical properties. | |
Functions | |
| double | Global_Physical_Variables::external_pressure () |
| Return a reference to the external pressure load on the elastic tube. More... | |
| void | Global_Physical_Variables::press_load (const Vector< double > &xi, const Vector< double > &x, const Vector< double > &N, Vector< double > &load) |
| Load function, normal pressure loading. More... | |
| int | main () |
| Driver. More... | |
Variables | |
| double | Global_Physical_Variables::Prescribed_y = 1.0 |
| Prescribed position of control point. More... | |
| Data * | Global_Physical_Variables::Pext_data_pt |
| Pointer to pressure load (stored in Data so it can become an unknown in the problem when displacement control is used. More... | |
| double | Global_Physical_Variables::Pcos =1.0 |
| Perturbation pressure. More... | |
| int main | ( | ) |
Driver.
Definition at line 540 of file clamped_shell.cc.
References ShellProblem< ELEMENT >::solve().