1. Introduction to the subject. Material overview, basic classification and industrial application.
2. Structure properties of materials I: Crystal structures of elements and binary alloys. Structure defects of lattices of metals and alloys.
3. Structure properties of materials II: Solid solutions, intermediary phases, mechanical mixtures. Phase transformations, thermodynamics and kinetics. Equilibrium phase diagrams, basic transformations, binary systems. Diffusion in metallic systems.
4. Basic mechanical properties of materials and evaluation methods.
5. Metallic alloys I: basic types of steels; cast iron; Fe-C system. Alloying effect on the properties of Fe alloys.
6. Metallic alloys II: copper alloys; aluminum alloys; magnesium alloys. Properties and application.
7. Metallic alloys III: nickel alloys; titanium alloys; alloys of refractory metals. Properties and application.
8. Metallic alloys IV: intermetallic alloys; biocompatible materials; functionally graded materials; metallic glasses. Properties and application.
9. Materials with electromagnetic properties: magnets, superconductors, semiconductors. Properties and application.
10. Amorphous materials; polymeric materials; natural materials; ceramic materials. Properties and application.
12. Composite materials: metallic, ceramic or polymeric matrix. Properties and application.
13. Protective layers and coatings of various purpose.
14. Consultation to lecture topics. Test of knowledge
2. Structure properties of materials I: Crystal structures of elements and binary alloys. Structure defects of lattices of metals and alloys.
3. Structure properties of materials II: Solid solutions, intermediary phases, mechanical mixtures. Phase transformations, thermodynamics and kinetics. Equilibrium phase diagrams, basic transformations, binary systems. Diffusion in metallic systems.
4. Basic mechanical properties of materials and evaluation methods.
5. Metallic alloys I: basic types of steels; cast iron; Fe-C system. Alloying effect on the properties of Fe alloys.
6. Metallic alloys II: copper alloys; aluminum alloys; magnesium alloys. Properties and application.
7. Metallic alloys III: nickel alloys; titanium alloys; alloys of refractory metals. Properties and application.
8. Metallic alloys IV: intermetallic alloys; biocompatible materials; functionally graded materials; metallic glasses. Properties and application.
9. Materials with electromagnetic properties: magnets, superconductors, semiconductors. Properties and application.
10. Amorphous materials; polymeric materials; natural materials; ceramic materials. Properties and application.
12. Composite materials: metallic, ceramic or polymeric matrix. Properties and application.
13. Protective layers and coatings of various purpose.
14. Consultation to lecture topics. Test of knowledge