1. Role of mathematical modelling and simulation in modern materials engineering.
2. Use of computer technology at control of technological processes in metal-lurgy, prediction of properties and structure of metallic materials.
3. Database systems in the field of materials engineering and research metallic materials (database MAT.DB, software CASTI, software JMatPro, software for Materials Science, software Materials Selector).
4. Method CALPHAD - calculation of thermodynamic equilibrium with use of the software THERMOCALC (phase diagrams - binary, ternary, isothermal sections).
5. Thermodynamic properties of components and phases, chemical reactions, equilibrium and nonequilibrium solidification of alloys, metastable equilib-ria, paraequilibrium state.
6. Driving force at nucleation, oxidation processes, Pourbaix diagrams, arrangement of alloys at a great distance.
7. Simulation of process kinetics using the software DICTRA - diffusion controlled transformations in alloys, theory of multicomponent diffusion.
8-9. Application of the software DICTRA at heat treatment of alloys: homogenisation of alloys, cementation, nitriding, phase transformations in real systems. Evolution of microstructure - nucleation, growth and coarsening of phases, precipitation sequences.
10. Interdiffusion in multicomponent materials.
11. Simulation of welding process - software SYSWELD (prediction of microstructural changes, hardness, internal stresses and strains during welding).
12. Modelling and simulation of crystallisation processes and refining of metals and semiconductors.
13-14. Software Digimat for prediction of the properties of metals and their alloys.
2. Use of computer technology at control of technological processes in metal-lurgy, prediction of properties and structure of metallic materials.
3. Database systems in the field of materials engineering and research metallic materials (database MAT.DB, software CASTI, software JMatPro, software for Materials Science, software Materials Selector).
4. Method CALPHAD - calculation of thermodynamic equilibrium with use of the software THERMOCALC (phase diagrams - binary, ternary, isothermal sections).
5. Thermodynamic properties of components and phases, chemical reactions, equilibrium and nonequilibrium solidification of alloys, metastable equilib-ria, paraequilibrium state.
6. Driving force at nucleation, oxidation processes, Pourbaix diagrams, arrangement of alloys at a great distance.
7. Simulation of process kinetics using the software DICTRA - diffusion controlled transformations in alloys, theory of multicomponent diffusion.
8-9. Application of the software DICTRA at heat treatment of alloys: homogenisation of alloys, cementation, nitriding, phase transformations in real systems. Evolution of microstructure - nucleation, growth and coarsening of phases, precipitation sequences.
10. Interdiffusion in multicomponent materials.
11. Simulation of welding process - software SYSWELD (prediction of microstructural changes, hardness, internal stresses and strains during welding).
12. Modelling and simulation of crystallisation processes and refining of metals and semiconductors.
13-14. Software Digimat for prediction of the properties of metals and their alloys.