СРАВНИТЕЛЬНАЯ ХАРАКТЕРИСТИКА ОКИСЛЕНИЯ ЦИНКА И ОЛОВА С УЧАСТИЕМ КИСЛОТ ПРИ КОМНАТНЫХ ТЕМПЕРАТУРАХ

Литература

1. Pozhidaeva S.D., Makeeva T.V., Eliseeva A.Yu., Ivanov A.M. Rapid and deep destruction of zinc in the presence of copper compounds. Khimicheskaya tekhnologiya. 2015. N 9, p. 517-527 (in Russian).
2. Pozhidaeva S.D., Grigor'ev D.A., Ageeva L.S., Ivanov A.M. The rapid and deep destruction of white tin by suspended malachite in an acidified aqueous solution of ammonium nitrate. Tekhnologiya metallov. 2017. N 7, p. 12-18 (in Russian).
3. Goldobina L.A., Orlov P.S. Analysis of the causes of corrosion damage to underground pipelines and new solutions for improving the corrosion resistance of steel. Zapiski Gornogo instituta. 2016. Vol. 219, p.459-464. DOI: 10.18454/PMI.2016.3.459 (in Russian).
4. Ivanov A.M., Klikin E.G., Pozhidaeva S.D. Deep oxidation of copper with copper (II) oxide in acidified water-salt solutions. Part II. The effect of the initial content of ammonium chloride. Izvestiya Yugo-Zapadnogo gosudarstvennogo universiteta. 2015. N 1 (58),
5. p. 26-35 (in Russian)
6. Ivanov I.I., Dubovikov O.A., Grigor'eva L.V., Kuzhaeva A.A., Zgonnik P.V. Study of the corrosion resistance of some materials in melts containing lower titanium chlorides. Zapiski Gornogo instituta. 2013.Vol. 202, p. 220-223 (in Russian).
7. Il'in V.A. Galvanizing, cadmium plating, tinning and lead plating. Leningrad: Mashinostroenie, 1983. p. 87 (in Russian).
8. Ryabtsev S.V., Chuvenkova O.A., Popov A.E., Chernyshov F.M. et al. Mechanisms of oxidation of thin metal films of tin. Kondensirovannye sredy i mezhfaznye granitsy. 2012. Vol. 14. Iss. 3, p. 328-333 (in Russian).
9. Ponomarenko T.V., Larichkin F.D., Sidorov D.V. Evaluation of the prospects for the creation of the tin industry in the Republic of Kazakhstan. Zapiski Gornogo instituta. 2016. Vol. 221, p. 742-74. DOI: 10.18454/PMI.2016.5.742 (in Russian).
10. Sivenkov A.V. Chemical heat treatment of steels in an environment of low-melting solutions. Zapiski Gornogo instituta. 2014. Vol. 209. p. 244-248 (in Russian).
11. Semenova I.V., Florianovich G.M., Khoroshilov A.V. Corrosion and corrosion protection. Moscow: FIZMATLIT, 2002,
12. p. 336 (in Russian).
13. Todt F. Corrosion and corrosion protection: corrosion of metals in industries. Leningrad: Khimiya, 1966, p. 847
14. (in Russian).
15. Ulig G.G., Revi R.U. Corrosion and protection from it. Introduction to Corrosion Science and Technology. Leningrad: Khimiya, 1989, р. 456 (in Russian).
16. Oertel C.M., Baker S.P., Niklasson A., Johansson L.-G., Svenssonc J.-E. Acetic Acid Vapor Corrosion of Lead-Tin Alloys Containing 3.4 and 15 % Tin. Journal of The Electrochemical Society. 2009. N 156 (12), р. 414-421.
17. Bardal Einar. Corrosion and protection (Engineering materials and processes). Springer-Verlag London Limited. 2004. URL:http://www.studmed.ru/bardal-e-corrosion-and-protection_7ddd395a670.html (date of access 30.05.2018).
18. Craig B.D., Lane R.A., Rose D.H. Corrosion Prevention and Control: A Program Management Guide for Selecting Materials. Advanced Materials, Manufacturing, and Testing Information Analysis Center (AMMTIAC). Alion Science & Technology, 2009. 293 p.
19. Corrosion Control in Engineering Design. National Physical Laboratory. URL: http://www.npl.co.uk/upload/pdf/corrosion_
20. control_in_engineering_design.pdf (date of access 30.05.2018)
21. Guides to Good Practice in Corrosion. Control Surface Preparation for Coating. National Physical Laboratory. Crown / Copyright, 2000. Reproduced by permission of the Controller of HMSO URL: http://resource.npl.co.uk/docs/science_technology/
22. materials/life_management_of_materials/publications/online_guides/pdf/surface_coating.pdf (date of access 30.05.2018)
23. Heidersbach R. Metallurgy and Corrosion Control in Oil and Gas Production. New York: Wiley, 2011, p.281.
24. Hienonen R., Lahtinen R. Corrosion Inspection and Monitoring Royal. VTT Publications 626. 2007.
25. URL: https://www.vtt.fi/inf/pdf/publications/2007/P626.pdf (date of access 31.05.2018).
26. Lopez´ D., Sanchez´ C., Toroa A. Corrosion-erosion behavior of TiN-coated stainless steels in aqueous slurries. Wear E-Journal.2005. URL: http://www.vimaru.vn/edata/E-Journal/2005/Wear/Vol258is1-4/bai %2078.pdf (date of access 31.05.2018).
27. Pozhidaeva S.D., Ivanov A.M., Sotnikova D.A., Eliseeva A.Yu. Interaction of Copper(II) oxide with monobasic mineral acids under model condition and in the presence of metallic copper. Russian Journal of Inorganic Chemistry. 2013. Vol. 58. N 12, p.1428-1433.
28. Pozhidaeva S.D., Eliseeva A.Yu., Ivanov A.M. Anomalously Deep and Fast Failure of Copper and Bronze under the Action of the Corrosion Products Existing on Them. Russian Metallurgy (Metally). 2015. Vol.12. N 13, p. 1117-1123.
29. Revie R.W., Uhlig H.H. Corrosion and corrosion control. An Introduction to Corrosion Science and Engineering. Hoboken. New Jersey: Published by John Wiley& Sons. 2008, p.518.
30. Roberge P.R. Handbook of Corrosion Engineering. New York: McGraw-Hill. 2000, p.1140.
31. Roberge P.R. Corrosion Basics: An Introduction. Houston, Texas: NACE Press Book. 2006, p. 364.
32. Sherbini E.E.Foad El., Hamed E. Corrosion behaviour of Tin in citric acid solutions and effect of some inorganic and organic compounds. Materials Science (MSAIJ): An Indian Journal. 2009. N 5 (4), p. 347-355.
33. The Corrosion Technology Laboratory. Corrosion Control and Treatment Manual TM-584C (Revision C). URL: https://corrosion.ksc.nasa.gov/pubs/tm584c.txt. (date of access 30.05.2018)
34. Young Woo Park, T.S.N. Sankara Narayanan, Kang Yong Lee. Effect of temperature on the fretting corrosion of tin plated copper alloy contact. Wear. 2008. URL: http://www.journals.elsevier.com/wear (date of access 31.05.2018).