Structure formation in the zones of contact of layers of clad steel operating in arctic conditions

The paper studies structure formed in the zone of contact of the cladding and base layers of steel grades F500WArc-P and E500W-P, produced by batch rolling and explosion welding, respectively. It has been revealed that the technology of applying the cladding layer determines the structure and dimensions of the contact zone of the bonded layers.

1. Golovanenko, S.A., Meandrov, L.V., Proizvodstvo bimetallov [Production of bimetals], Moscow: Metallurgiya 1966.

2. Zenin, B.S., Slosman, A.I., Sovremennye tekhnologii poverkhnostnogo uprochneniya i naneseniya pokryty [Modern technologies of surface hardening and coating application], Tomsk: Politechnic University, 2012.

3. Chepurko, M.I., Pelyukhov B.D., Bimetallicheskie materialy [Bimetallic materials], Leningrad: Sudostroenie, 1984.

4. GOST R 52927–2015: Prokat dlya sudostroeniya iz stali normalnoy, povyshennoy i vysokoy prochnosti [Rolled products for shipbuilding from steel of normal, increased and high strength], Moscow: Standartinform, 2017.

5. GOST 5640–2020 State Standard: Stal. Metallografichesky metod otsenki mikrostruktury prokata stalnogo ploskogo [Steel. Metallographic method for assessing the microstructure of flat rolled steel], Moscow: Izdatelstvo standartov, 2020.

6. Kalinin, G.Yu., Petrov, S.N., Kharkov, O.A., Motovilina, G.D., Novaya dvukhsloynaya stal 10KhN3MD+04Kh20N6G11M2AFB s ravnoprochnymi osnovnym i plakiruyushchim sloyami [New two-layer steel 10KhN3MD + 04Kh20N6G11M2AFB with equal strength base and cladding layers], Voprosy Materialovedeniya, 2018, No 12, pp. 3–11.

7. Poppmeier, W.A.H., Vreugdenburg, J.C., The manufacture of stainless clad steels, Journal of the South African Institute of Mining and Metallurgy, 1991, No 12, pp. 435–439.

8. Legostaev, Yu.L., Motovilina, G.D., Malyshevsky, V.A., Semicheva, T.G., Vysokoprochnaya plakirovannaya stal dlya raboty v ekstremalnykh usloviyakh. Osobennosti stroeniya perekhodnoy zony [High-strength clad steel for work in extreme conditions. Features of the structure of the transition zone], Nauchno-tekhnichesky sbornik Rossiiskogo morskogo registra sudokhodstva, 1998, V. 21, pp. 98–109.

9. Paul, H., Faryna, M., Pražmowski, M., Banski, R., Changes in the bonding zone of explosively welded sheets, Archives of Metallurgy and Materials, 2011