1. Composite steel-concrete structural systems - basic principles of behaviour, load, material, design standards. 2. Steel-concrete beams – ultimate limit state, serviceability limit state (basic principles of design). 3. Steel-concrete beams – shear connection (types, basic principles of design). 4. Steel-concrete columns – basic principles of design and structural detailing. 5. Steel-concrete structural members – basic principles of fire design. 6. Timber beams – types, basis of design, static analysis. 7. Glue laminated timber structures – design principles, static design, basic structural compositions. 8. Assembly connections of timber structures with metal timber fasteners – design principles, basic calculation. 9. Design of timber structures – structural fire design. Behaviour of timber elements during the fire. 10. Design of timber structures – rules for analysis of structural members, basic design calculation; behaviour of connections of timber elements during the fire, basic design calculation. 11. Practical application of steel-concrete structural members and components; practical application of timber structural members and parts; examples of realized constructions.

1. Steel-concrete composite structural members – overview, basic principles, cross-sections, materials. 2. Steel-concrete composite beams: basis of design – ultimate and serviceability limit states. 3. Steel-concrete composite beams: basis of design – shear connection. 4. Steel-concrete composite columns: basis of design – pure compression, buckling compression. 5. Steel-concrete composite structural members: principles of fire resistance evaluation. 6. Timber beams – static analysis. 7. Glue laminated timber structures – static analysis. 8. Assembly connections of timber structures with metal timber fasteners – design principles. 9.–10. Design of timber structures to fire effects. 11. Practical applications and examples of steel-concrete and timber structural members and parts.