On corrosion resistance of nitrogen-containing steel in abrasion conditions

This work presents tests’ results on the corrosion and erosion resistance of nitrogen-containing steel 04Kh20N6G11M2AFB in comparison with steel 08Kh18N10T, AB2-2 and VT1-0 titanium alloy. It is difficult to determine steel wear resistance against ice with abrasive (20%) due to the rapid melting of ice. It has been shown that the most effective methodology for assessing the corrosion-erosion resistance to simultaneous impact of abrasive and a 3.5% solution of NaCl to the metallic surface consists in the determination of the repassivation rate of the oxide film. It was found that the electrochemical potential of 04Kh20N6G11M2AFB stainless steel recovers 1.5 times faster than that of 08Kh18N10T steel, so it is very promising to use nitrogen-containing steel as a cladding layer of bimetallic alloy for icebreakers belts manufacturing.

stainless steel, nitrogen-containing steel, corrosion and erosion resistance, bimetal, clad steel

1. Ovanesyan, K.K., Kharkov, A.A., Loginov, V.B., Issledovanie prichin intensivnogo korrozionnogo iznosa naruzhnoy obshivki korpusov ledokolov [Study of the causes of intense corrosion wear on the outer skin of icebreaker bodies], Tekhnologiya sudostroeniya, 1990, No 3, pp. 15−18.

2. Kachurin, L.G., Androsenko, V.Ya., Loginov, V.B., Ovanesyan, K.K., Psalomshchikov, V.F., Kharkov, A.A., Fiziko-khimicheskie protsessy pri mekhanicheskom vzaimodeystvii metalla so ldom [Physical and chemical processes during the mechanical interaction of metal with ice], Tekhnologiya sudostroeniya, 1990, No 3, pp. 22−24.

3. Sokolov, O.G., Malyshevsky, V.A., Legostaev, Yu.L., Grishchenko, L.V., Vysokoprochnye plakirovannye stali, stoykie k korrozionno-erozionnomu iznosu [High strength clad steels resistant to erosion corrosion], Progressivnye materialy i tekhnologii, 1993, No 1, pp.12−13.

4. Legostaev, Yu.L., Malyshevsky, V.A., Motovilina, G.D., Semicheva, T.G., Vysokoprochnaya plakirovannaya stal dlya raboty v ekstremalnykh usloviyakh. Osobennosti stroyeniyaperekhodnoy zony [High strength clad steel for extreme conditions. Structural features of the transition zone], Nauchnotekhnicheskiy sbornik Rossiyskogo morskogo registra sudokhodstva, 2004, Issue 21, pp. 98−109.

5. Gorynin, I.V., Rybin, V.V., Malyshevsky, V.A., Kalinin, G.Yu., Mushnikova, S.Yu., Malakhov, N.V., Yampolsky, V.D., Sozdanie perspektivnykh printsipialno novykh korrozionno-stoykikh korpusnykh staley, legirovannykh azotom [Creation of perspective fundamentally new corrosion-resistant case steel alloyed with nitrogen], Voprosy Materialovedeniya, 2005, No 2 (42), pp. 40−54.

6. Sagaradze, V.V., Kataeva, N.V., Mushnikova, S.Yu., Kalinin, G.Yu., Kharkov, O.A., Malyshevsky, V.A., Novye konstruktsionnye materialy dlya korpusov arkticheskikh sudov [New structural materials for hulls of Arctic vessels], Nauchno-tekhnicheskie problemy osvoeniya Arktiki, Moscow: Nauka, 2015, pp. 437–451.

7. Sagaradze, V.V., Kataeva, N.V., Mushnikova, S.Yu., Kalinin, G.Yu., Kharkov, O.A., Kostin, S.K.,Parmenova, O.N.,Struktura i svoystva plakirovannoy dvukhsloynoy stali dlya korpusov arkticheskikh ledokolov [Structure and properties of clad double-layer steel for hulls of Arctic icebreakers], Voprosy Materialovedeniya, 2015, No 3(83), pp.14−25.

8. Kamachi Mudali,U., Baldev, Raj., High Nitrogen Steels and Stainless Steels: Manufacturing, Properties and Applications, Alpha Science International, 2004.

9. Schröder, C., Wendler, M., Kreschel, T., Volkova, O., Weiß, A., Development of a Stainless Austenitic Nitrogen-Alloyed CrMnNiMo Spring Steel, Crystals, 2019, No 9, V. 456, pp. 1–15.

10. Anil Kumar, V.,Gupta, R.K., Karthikeyan, M.K., et al., Development of High Nitrogen Stainless Steel for Cryogenic Applications, Materials Science Forum, 2015, V. 830–831, pp. 23–26.

11. Mushnikova, S.Yu., Legostaev, Yu.L., Kharkov, A.A., Petrov, S.N., Kalinin, G.Yu., Issledovanie vliyaniya azota na stoykost k pittingovoy korrozii austenitnykh staley [Study of the effect of nitrogen on the resistance to pitting corrosion of austenitic steels], Voprosy Materialovedeniya, 2004, No2 (38), pp. 126–135.

12. Korshunov, L.G., Sagaradze, V.V., Chernenko, N.L., Pecherkina, N.L., Kalinin, G.Yu., Mushnikova, S.Yu., Kharkov, O.A., Struktura i tribologicheskie svoystva azotsoderzhashchikh nerzhaveyushchikh austenitnykh staley [Structure and tribological properties of nitrogencontaining stainless austenitic steels], Voprosy Materialovedeniya, 2012, No3 (71), pp. 1–10.

13. Korshunov, L.G., Goykhenberg, Yu.N., Chernenko, N.L., Vliyanie legirovaniya i termicheskoy obrabotki na strukturu i tribologicheskie svoystva azotsoderzhashchikh nerzhaveyushchikh austenitnykh staley pri abrazivnom i adgezionnom iznashivanii [The effect of alloying and heat treatment on the structure and tribological properties of nitrogen-containing stainless austenitic steels in abrasive and adhesive wear], Metallovedenie i termicheskaya obrabotka metallov, 2007, No5, pp. 9–18.