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Evaluation of corrosion resitance of weathering steel with 3 % Ni

korozi, SVÚOM.Praha, 2010, ISBN 978-80-87444-05-4. 10. K. Kreislová, D. Knotková: Použití patinujících ocelí v architektuře, ISBN 978-80-87444-10-8, SVÚOM.Praha, 2011. 11. X. H. Chen, J. H. Dong, E. H. Han, W. Ke: Effect of Ni on the ion-selectivity of rust layer on low alloy steel. Material Letters 2007, 61, 4050-4053. 12. A. Tahara, T. Shinohara: Infl uence of the alloy element on corrosion morphology of the low alloy steels exposed to the atmospheric environments, Corrosion Science 2005, 47, 2589

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Korozní monitoring v rukách restaurátorů a konzervátorů / Corrosion monitoring in the hands of restorers and conservators

(MUSECORR), Collaborative Project, 7th Framework Programme, Contract No. 226539, 06/2009-05/2012. 4. ASTM G96, Standard Guide for On-Line Monitoring of Corrosion in Plant Equipment (Electrical and Electrochemical Methods) , West Conshohocken, USA: ASTM International, 2008 . 5. Prosek, T., Kouril, M., Hilbert, L.R., Degres, Y., Blazek, V., Thierry, D., Hansen, M. Ø., Corrosion Engineering, Science and Technology 2008 , 43 (2), 129. 6. P rosek, T., Thierry, D., Kouril, M., Degres, Y., Automated corrosion loggers for

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Corrosion resistance of stainless steel in drinking water treatment plants and water storage units

-30Ni and Type 304L Stainless Steel in 0.5 N NaCl Solutions. Corrosion 1990 , 46 (10), 843-852. 9. Viera, M., et al., Comparative study of the effect of oxygen and oxygen/ozone mixtures on the electrochemical behaviour of different metals. Journal of Applied Electrochemistry 2001 , 31 (5), 591-598. 10. Ratnayaka, D. D., et al., 11.22 Production of Ozone. In Twort’s Water Supply (6 th Edition), Elsevier. 11. Lee, W., et al., Corrosion problems caused by bromine formation in additive dosed MSF desalination plants. Desalination 1983 , 44 (1

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Koroze slitin zirkonia v prostøedí vyšších koncentrací lithia/ Corrosion of zirconium alloys in the environments with elevated concentration of lithium

Zircaloy-4, Zirconium in the Nuclear Industry: 12th International Symposium, ASTM STP 1354; Pecheur, D.; 2000. 5. Cox, B; et al. Dissolution of zirconium oxide fi lms in 300°C LiOH. J. Nucl. Mater. 1993, 199, 272-284. 6. Experimental and Theoretical Studies of Parameters that Infl uence Corrosion of Zircaloy-4, Zirconium in the Nuclear Industry: 10th International Symposium, ASTM STP 1245; Billot, Ph.; 1994. 7. Saario, T.; Effect of Lithium Hydroxide on stability of Fuel Cladding Oxide Film in Simulated Pressurized Water

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Effect of heat treatment on microstructure, microhardness and corrosion resistance of ZE41 Mg alloy

, K.; Pan, F.; Chen, X.; Tang, A.; Pan, H. and Luo, S. Effect of Zn content on electromagnetic interference shielding effectiveness of Mg–Zn alloys, Materials Research Innovations 2014 , 18, S4-193-197. 20. Li, L.; Jiang, W.; Guo, P.; Yu, W.; Wang, F.; Pan, Z. Microstructure Evolution of the Mg-5.8 Zn-0.5 Zr-1.0 Yb Alloy During Homogenization, Materials Research 2017 , 20 (4), 1063-1071. 21. Kevorkov, D.; Pekguleryuz, M.; Experimental study of the Ce–Mg–Zn phase diagram at 350 °C via diffusion couple techniques, Journal of Alloys and Compounds

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Hydrogen embrittlement of tantalum and tantalum coatings

-101. Khadzhai, G. The electrical resistance of the tantalum-hydrogen system at low temperatures. International Journal of Hydrogen Energy.   2001 , 26 , 511-513. Pörschke, E.; et al. Hydrogen Desorption from Tantalum with Segregated Oxide Surface Layers. J. Phys. Chem. Solids.   1986 , 47 (10), 1003-1011. Shleifman, D. E.; et al. Thermally stimulated hydrogen desorption from zirconium and tantalum. J. Alloys Compd.   1995 , 223 , 81-86. Krejčík, V.; et al. Povrchová úprava kovů I ; SNTL

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Microbial corrosion of metallic materials in a deep nuclear-waste repository

microbial processes in the performance assessment of spent nuclear fuel repositories. Applied Geochemistry 2012, 27 (2), 453-462. 25. Féron, D.; Crusset, D., Microbial induced corrosion in French concept of nuclear waste underground disposal. Corrosion Engineering, Science and Technology 2014, 49 (6), 540-547. 26. King, F., Microbiologically Influenced Corrosion of Nuclear Waste Containers. Corrosion 2009, 65 (4), 233-251. 27. King, F., Container Materials for the Storage and Disposal of Nuclear Waste. Corrosion 2013, 69 (10), 986

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ZrO2 coatings for bioapplication

-6), 489-497. 29. NIST X-ray Photoelectron Spectroscopy Database, Version 4.0; National Institute of Standards and Technology, Gaithersburg: 2008. 30. Liu, C., et al., EIS comparison on corrosion performance of PVD TiN and CrN coated mild steel in 0.5 N NaCl aqueous solution. Corrosion Science 2001, 43 (10), 1953-1961. 31. Liu, E.; Kwek, H. W., Electrochemical performance of diamond-like carbon thin fi lms. Thin Solid Films 2008, 516 (16), 5201-5205. 32. Joska, L.; Fojt, J

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Corrosion problems and solutions in oil, gas, refining and petrochemical industry

Substances and Disease Registry (ATSDR), Toxicological profile for mercury. Atlanta, GA: U.S. Department of Health and Human Services, Public Health Service, 1994. 10. J.M. Campbell, Gas Conditioning and Processing, Vol.1: The Basic Principles, 8th ed., Ed. M. John, 2004, Campbell and Company. 11. B. Traconis, Y.D. Mierez, and A. Jimenez. Mercury removal systems at Santa Barbara Extraction Plant. In: Proceedings of the 75th Annual Convention Gas Processors Association, Tulsa, OK, USA, 1996, p. 123. 12. N. Eckersley, Advanced

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Vliv koroze zinkované oceli na soudržnost s betonem / The influence of galvanized steel on bond strength with concrete

materiálu 2002 , 46 (3), 62-67. 10. Leonard, H. Kovy verze 06b (pro 1. ročník). Prezentace Kovy, (accessed Oct 05, 2012). 11. Bojko, M. Alternativní kovové materiály pro výztuže do betonu. Disertační práce, Vysoká škola chemickotechnologická v Praze, 2007. 12. American Galvanizers Association. Hot-Dip Galvanized Rebar vs Epoxy-Coated Rebar. /uploads/publicationPDFs/Galvanized_Rebar_vs_Epoxy_Rebar (accessed Oct 05, 2012). 13. Hot Dip Galvanized Reinforcing Steel

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