PSI - Issue 28

Nina Ogoreltceva et al. / Procedia Structural Integrity 28 (2020) 1340–1346 Nina Ogoreltceva et al. / Structural Integrity Procedia 00 (2019) 000–000

1346

7

Acknowledgements This work was carried out within the project 0.2. G25.31.0181 (Decision of the Government of the Russian Federation no. 218 of April 9, 2018). References SØrlie, M., Øye, H.A., 2010. Cathodes in Aluminium Electrolysis. 3rd ed. Aluminium Verlag, рр. 662. Reny, P., Wilkening, S., 2000. Graphite cathode wear study at Alouette. Light Metals. 399-405. Skybakmoen, E., R Ø rvik, S., Solheim, A., Holm, K.R., Tiefenbach, P., Østrem, Ø., 2011. Measurement of cathode surface wear profiles by laser scanning. Light Metals, 1061-1066. Li, T., Johansen, S.T., Solheim, A., 2016. Uneven cathode wear in aluminium reduction cell. Light Metals. 927-932. Senanu, S., 2017. Cathode wear based on autopsy of a shutdown aluminium electrolysis cell. Light Metals. 561-570. Munro, R. G., 2000. Material Properties of Titanium Diboride. J. Res. Natl. Inst. Stand. Technol. 105, 709-720. Method for the protection of cathode blocks of aluminum electrolytic cells with calcined anodes: protective composition and coating. Patent RU 2724236, appl. RU2019130350, 09.24.2019 (in Russian).