1. Structural mechanics - overview of methods.
2. Computational models, idealisation.
3. Modelling of boundary conditions.
4. Modelling of loads.
5. Possible problems, convergence.
6. Verifications of result, analytical solutions.
7. Constitutive modelling.
8. Large deformations.
9. Complex problems.
10. Experimental verification of results.
2. Computational models, idealisation.
3. Modelling of boundary conditions.
4. Modelling of loads.
5. Possible problems, convergence.
6. Verifications of result, analytical solutions.
7. Constitutive modelling.
8. Large deformations.
9. Complex problems.
10. Experimental verification of results.