Lectures:
1. Assessment of joints using component method – principles of the component method, basic components.
2. Assessment of joints using component method – basic types of joints, stiffness of joints. Hollow section joints.
3. Fatigue and brittle fracture of steel structures.
4. Steel members exposed to torsion.
5. Design of stainless steel structures.
6. Steel structures in seismically active regions.
7. Steel structures in undermining regions.
8. Design of load bearing members from structural glass.
9. Fatigue and brittle fracture of timber structures. Oscillation of timber structures.
10. Composite timber and concrete structures - types of constructions, shear connectors, design principles.
11. Design of nailed beams.
12. Design of glued beams.
13. Special timber structures. Strengthening of elements of wooden structures.
14. Defects and failures of timber structures.
1. Assessment of joints using component method – principles of the component method, basic components.
2. Assessment of joints using component method – basic types of joints, stiffness of joints. Hollow section joints.
3. Fatigue and brittle fracture of steel structures.
4. Steel members exposed to torsion.
5. Design of stainless steel structures.
6. Steel structures in seismically active regions.
7. Steel structures in undermining regions.
8. Design of load bearing members from structural glass.
9. Fatigue and brittle fracture of timber structures. Oscillation of timber structures.
10. Composite timber and concrete structures - types of constructions, shear connectors, design principles.
11. Design of nailed beams.
12. Design of glued beams.
13. Special timber structures. Strengthening of elements of wooden structures.
14. Defects and failures of timber structures.