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The course is oriented to corrosion degradation of structural materials in power engineering and methods of its suppresion. Basics of corrosion thermodynamics and kinetics, specific degradation processes, influence of chemical regimes on corrosion and anti-corrosion measures are explained.
Last update: Macák Jan (03.11.2015)
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V.Číhal : Korozivzdorné oceli a slitiny, Akademia Praha, 1999 F.Karas : Úprava kotelní vody a čistota páry, SNTL Praha, 1965 D.A.Jones : Principles and Prevention of Corrosion, Prentice Hall, N.Y., 1996 R.Bartoníček a kol.: KOROZE a protikorozní ochrana kovů, Akademie Parha, 1966 H.H. Uhlig, R.Winston Revie: Corrosion Handbook, 3.rd Ed., Wiley&Sons, NJ, 2011 S.D.Cramer, B.S.Covino, eds: ASM Handbook vol.13c, Corrosion: Environments and Industries, ASM International, 2006
Last update: Macák Jan (02.11.2015)
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1. Corrosion research, literature, recherché 2. Corrosion thermodynamics, corrosion potential, corrosion cells, types of corrosion 3. Corrosion overpotential, polarization, inhibition 4. Corrosion current, Tafel equation, polarization resistance, Stern-Geary equation 5. Passivity, theory of passivity, passivators, anodic protection 6. Structural materials for water-steam systems, Pourbaix diagram 7. Stress corrosion cracking, mechanisms and initiation, tests, metals embrittlement 8. Corrosion fatigue, Wohlers curve 9. Water treatment and corrosion in power cycles, atmospheric and soil corrosion 10. High temperature oxidation, Schikorr reaction, formation and kinetics of oxide growth 11. Corrosion in power plant 12. Chemical cleaning of steam generator, passivation, conservation 13. Corrosion in nuclear power 14. Corrosion in supercritical energy cycles Last update: TAJ218 (27.01.2015)
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