Lecture outline
1. Numerical methods, FEM, materials, software.
2. Creation and import of geometry, supports.
3. Boundary conditions, loads (force, temperature).
4. Plane beam structures, 1D element.
5. Spatial beam structures.
6. Surface structures, slabs, walls, openings, 2D element.
7. Geometrically and materially nonlinear solutions,
8. Combined structures, subsoil models.
9. Modeling of parts and details of structures, 3D element.
10. Stationary and unsteady heat transfer, coupled problem.
11. Stability, dynamic task.
12. Experimental and numerical analysis of structures.
13. Student project.
1. Numerical methods, FEM, materials, software.
2. Creation and import of geometry, supports.
3. Boundary conditions, loads (force, temperature).
4. Plane beam structures, 1D element.
5. Spatial beam structures.
6. Surface structures, slabs, walls, openings, 2D element.
7. Geometrically and materially nonlinear solutions,
8. Combined structures, subsoil models.
9. Modeling of parts and details of structures, 3D element.
10. Stationary and unsteady heat transfer, coupled problem.
11. Stability, dynamic task.
12. Experimental and numerical analysis of structures.
13. Student project.