studuj.vscht.cz
Data pro 2018/2019
Principles of Metallurgical and Corrosion Processes
| Kredity | 5 |
| Rozsah | 3 / 0 / 0 |
| Examinace | Zk |
| Jazyk výuky | angličtina |
| Úroveň | magisterský předmět |
| Garant |
doc. Ing. Luděk Joska, CSc. |
Anotace
None
Sylabus
1. Description of metallurgical and corrosion processes.
2. Metallurgical processes - enthalpy, entropy, Gibbs energy.
3. ΔG-T diagrams, oxidation, reduction.
4. Pyrometallurgical processes, slags.
5. Thermodynamics of liquid metal solutions.
6. Conductivity - conductors, semiconductors, electrolytes.
7. Electrolytes - dissociation, solvatation, mobility, acido-basic reactions.
8. Thermodynamic of cells, electrodes, equilibrium in electrochemical systems.
9. Potential-pH diagrams.
10. Electrochemical kinetics.
11. Mixed potential, depolarisation, electrode reactions of the hydrogen and oxygen.
12. Corrosion in electrolytes - electrochemical description.
13. Electrochemical experimental techniques, corrosion rate measurement.
14. Electrometallurgical extraction processes.
2. Metallurgical processes - enthalpy, entropy, Gibbs energy.
3. ΔG-T diagrams, oxidation, reduction.
4. Pyrometallurgical processes, slags.
5. Thermodynamics of liquid metal solutions.
6. Conductivity - conductors, semiconductors, electrolytes.
7. Electrolytes - dissociation, solvatation, mobility, acido-basic reactions.
8. Thermodynamic of cells, electrodes, equilibrium in electrochemical systems.
9. Potential-pH diagrams.
10. Electrochemical kinetics.
11. Mixed potential, depolarisation, electrode reactions of the hydrogen and oxygen.
12. Corrosion in electrolytes - electrochemical description.
13. Electrochemical experimental techniques, corrosion rate measurement.
14. Electrometallurgical extraction processes.
Literatura
None