1. Introduction.
2. Stress and strain. Mechanical properties of materials.
3. Principles of structural desing.
4. Tension and compression members.
5. Torsion.
6. Bending.
7. Shear.
8. Deflections of beams: integration of deflection curve.
9. Deformation of beams: Mohr method.
10. Introduction to plane stress problem.
11. Elastic stability.
12. Elastic and elastic-plastic behaviour of materials.
13. Introduction to fatique, to fracture mechanics and to rheological behaviour of material and structures.
14. Application of elasticity and plasticity theory in engineering practice.
2. Stress and strain. Mechanical properties of materials.
3. Principles of structural desing.
4. Tension and compression members.
5. Torsion.
6. Bending.
7. Shear.
8. Deflections of beams: integration of deflection curve.
9. Deformation of beams: Mohr method.
10. Introduction to plane stress problem.
11. Elastic stability.
12. Elastic and elastic-plastic behaviour of materials.
13. Introduction to fatique, to fracture mechanics and to rheological behaviour of material and structures.
14. Application of elasticity and plasticity theory in engineering practice.