1. Repeat the knowledge from Mechanics of Materials.
2. Combined loading of straight beams and bars.
3. Shear stress in bending, shear center
4. Curved beams
5. Thin – wall cylinder, thick – wall cylinder
6. Compound cylinder vessels. Rotating disks
7. Theory of elasticity
8. Stress concentration factor, introduction to fracture mechanics
9. Fatigue of materials
10. Numerical methods in mechanics, introduction to finite element method (FEM),
11. Introduction to finite element method, basic type of elements, element and global stiffness matrix, boundary conditions
12. Introduction to finite element method, singularities, errors in FEM
13. Experimental methods in mechanics
14. Dynamics and vibration
2. Combined loading of straight beams and bars.
3. Shear stress in bending, shear center
4. Curved beams
5. Thin – wall cylinder, thick – wall cylinder
6. Compound cylinder vessels. Rotating disks
7. Theory of elasticity
8. Stress concentration factor, introduction to fracture mechanics
9. Fatigue of materials
10. Numerical methods in mechanics, introduction to finite element method (FEM),
11. Introduction to finite element method, basic type of elements, element and global stiffness matrix, boundary conditions
12. Introduction to finite element method, singularities, errors in FEM
13. Experimental methods in mechanics
14. Dynamics and vibration