1. Overview of melting and casting methods for advanced materials production.
2. Vacuum induction melting and directionnal solidification of superalloys.
3. Vacuum induction melting of intermetallics Powder metallurgy methods of preparation of intermetallic alloys and IMC composites.
4.-5. Thermal spray processes: plasma, flame and electric arc spraying. Effect of process variables on microstructure features. Coating materials. Heat treatment of coating
6.-7. Plasma processes. Application plasma technologies in refining process of nonferrous metals, preparation of alloys and intermetallics. Spray forming by the Ospray process.
8. Physical vapor deposition, fundamental, coating materials, thin films characterisation. Evaporation, sputtering, ion-plating, ion implantation.
9. Chemical vapor deposition, fundamental, coating materials. Diamond and multicomponent layers technologies.
10.–11. Processing of composite materials. Fundamentals of technologies.
12. Electron beam melting. Application in preparation and refining of Ni and Ti alloys.
13. Laser melting technologies in metallurgy, surface treatment and alloying of alloys
14. Hydrogen in preparation and treatment of alloys. Modification of microstructure features of Ti based alloys. Hydrogen-induced amorphization of intermetallics.
2. Vacuum induction melting and directionnal solidification of superalloys.
3. Vacuum induction melting of intermetallics Powder metallurgy methods of preparation of intermetallic alloys and IMC composites.
4.-5. Thermal spray processes: plasma, flame and electric arc spraying. Effect of process variables on microstructure features. Coating materials. Heat treatment of coating
6.-7. Plasma processes. Application plasma technologies in refining process of nonferrous metals, preparation of alloys and intermetallics. Spray forming by the Ospray process.
8. Physical vapor deposition, fundamental, coating materials, thin films characterisation. Evaporation, sputtering, ion-plating, ion implantation.
9. Chemical vapor deposition, fundamental, coating materials. Diamond and multicomponent layers technologies.
10.–11. Processing of composite materials. Fundamentals of technologies.
12. Electron beam melting. Application in preparation and refining of Ni and Ti alloys.
13. Laser melting technologies in metallurgy, surface treatment and alloying of alloys
14. Hydrogen in preparation and treatment of alloys. Modification of microstructure features of Ti based alloys. Hydrogen-induced amorphization of intermetallics.