1. Semiconductor materials, their characterization and technological aspects of preparation.
2. Conducting materials. Physical principles of the electrical conductivity, basic characteristic of conductors, application.
3. Superconductors, the characterization of superconductivity, the preparation of superconductors.
4. Magnetic materials, their properties, preparation methods, development trends.
5. Amorphous materials, metallic glasses, thermodynamic and kinetic aspects of processing technology, materials and application.
6. Single crystals of refractory metals, processing technologies and application.
7. Intermetallic compounds based on Ti and Ni. Effect of high structure ordering on function properties, application.
8. Gradient materials, their characterization, overview of properties, applications, technological aspects of preparation.
9. Shape memory materials, principle of shape memory effect, possibilities of modification of properties.
10. Cellular materials, metal foams, physical properties and application, processing technologies.
2. Conducting materials. Physical principles of the electrical conductivity, basic characteristic of conductors, application.
3. Superconductors, the characterization of superconductivity, the preparation of superconductors.
4. Magnetic materials, their properties, preparation methods, development trends.
5. Amorphous materials, metallic glasses, thermodynamic and kinetic aspects of processing technology, materials and application.
6. Single crystals of refractory metals, processing technologies and application.
7. Intermetallic compounds based on Ti and Ni. Effect of high structure ordering on function properties, application.
8. Gradient materials, their characterization, overview of properties, applications, technological aspects of preparation.
9. Shape memory materials, principle of shape memory effect, possibilities of modification of properties.
10. Cellular materials, metal foams, physical properties and application, processing technologies.