1. Introduction - crystalline and amorphous structure.
2. Defects in the crystalline structure.
3. Tensile tests and mechanical properties of materials.
4. Hook´s law, Poisson´s law, stress, deformations. Anisotropy.
5. Stress and strain tensor transformation.
6. Strength hypothesis. Haigh\'s experiments.
7. Stress concentration. Fracture.
8. Fatigue of materials.
9. Creep and relaxation of materials.
10. Residual stress measurement. Non-Destructive Evaluation and defectoscopy.
11. Corrosion and mechanisms of wear.
12. Non ferrous metals. Ceramics.
13. Polymers and their mechanical testing.
14. Composites. Material selection process.
2. Defects in the crystalline structure.
3. Tensile tests and mechanical properties of materials.
4. Hook´s law, Poisson´s law, stress, deformations. Anisotropy.
5. Stress and strain tensor transformation.
6. Strength hypothesis. Haigh\'s experiments.
7. Stress concentration. Fracture.
8. Fatigue of materials.
9. Creep and relaxation of materials.
10. Residual stress measurement. Non-Destructive Evaluation and defectoscopy.
11. Corrosion and mechanisms of wear.
12. Non ferrous metals. Ceramics.
13. Polymers and their mechanical testing.
14. Composites. Material selection process.