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WETTABILITY OF THE SURFACE OF STEEL 12Cr18Ni9Ti BY LIQUID TIN

https://doi.org/10.31143/2221-7789-2023-3-05-11

EDN: GZCFLH

Abstract

The temperature dependence of the contact angles θ(Т) of the polished surface of structural stainless steel 12Cr18Ni9Ti with liquid tin in the temperature range 510–920 К was established in experiments on an improved experimental setup using the sessile drop method under vacuum conditions. On the polytherm θ(T) of the studied system, a critical wetting temperature of about 870 K was found. According to the authors, the appearance of the critical temperature is mainly due to and associated with the onset of the processes of dissolution of alloying elements of 12Ch18Ni9Ti steel in liquid tin.

About the Authors

B. B. Alchagirov
Kabardino-Balkarian State University
Russian Federation


O. Kh. Kanametova
Kabardino-Balkarian State University
Russian Federation


A. Kh. Khibiev
Kabardino-Balkarian State University
Russian Federation


R. A. Kutuev
The Chechen State University
Russian Federation


F. F. Dyshekova
Kabardino-Balkarian State University
Russian Federation


O. A. Kardangusheva
Kabardino-Balkarian State University
Russian Federation


References

1. Emelianenko A.M., Boynovich L.B. Wetting analysis as an effective method for studying the characteristics of coatings, surfaces and the processes occurring on them//Factory laboratory. (Material diagnostics). 2010. T. 76, NO. 9. S. 27-36.

2. Drelich J.W., Boinovich L., Chibowski E., Della Volpe C., Hołysz L., Marmur A., Siboni, S. Contact angles: History of over 200 years of open questions // Surface Innovations. 2019. V. 8, N 1–2. P. 3–27.

3. Summ B.D., Goryunov Yu.V. Physical and chemical bases of wetting and spreading. M.: Chemistry, 1976. 232 s.

4. Naidich Y.V. The Wettability of Solids by Liquid Metals // Progress in Surface and Membrane Science. 1981. V. 14. P. 353.

5. Sharafat S., Ghoniem N. Summary of thermo-physical properties of Sn and compounds of Sn–H, SnO, Sn–C, Sn–Li, and Sn–Si and comparison of properties of Sn, Sn–Li, Li, and Pb–Li // Report SS/NG: UCLA-UCMEP-00-31 (UCLA, 2000). 2000. 57 p.

6. Vertkov A.V., Lublinsky I.E. Experience in the development of liquid metal elements facing the plasma of a stationary tokamak//VANT. Ser. Fusion. 2017. T. 40, NO. 3. S. 5.

7. Yin F., Su X., Li Z., Wang J. Thermodynamic assessment of the Li–Sn (lithium–tin) system // Journal of alloys and compounds. 2005. V. 393, N 1–2. P. 105–108.

8. A de Castro, Moynihan C., Stemmley S., Szott M., Andruczyk D., Ruzic D.N. Exploration of Sn70Li30 alloy as possible material for flowing liquid metal plasma facing components // Nuclear Materials and Energy. 2020. V. 25. P. 100829.

9. Tazhibayeva I., Ponkratov Y., Lyublinsky I., Gordienko Y., Vertkov A., Tulubayev Y., Orazgaliyev

10. N. Study of liquid tin-lithium alloy interaction with structural materials of fusion reactor at high temperatures // Nuclear Materials and Energy. 2022. V. 30. P. 101–152.

11. Fütterer M.A. , Aiello G., Barbier F., Giancarli L., Poitevin Y., Sardain P., Vella G. On the use of tinlithium alloys as breeder material for blankets of fusion power plants // J. Nuclear Materials. 2000. V. 283.

12. P. 1375–1379.

13. Alchagirov B.B., Kushkhov H.B., Kanametova O.Kh., Dmitrienko V.P. Wettability of surfaces of condensed phases by liquid lithium. (State of research )//Electrochemistry in distributed and nuclear energy: Sat. Tr. 2 All-Russia. sem. Yekaterinburg: publishing house "Azhur," 2023. S. 237-241.

14. Dokhov M. P., Sherieva E. Kh., Tsipinova A. Kh. Wetting tungsten and rhenium with liquid tin and calculating their interphase energies depending on temperature//TVT. 2021. T. 59, NO. 4. S. 638-640.

15. Lungs A.Yu., Askhadullin R.Sh., Sadovnichy R.P. Ensuring the corrosion resistance of steels in heavy liquid metal coolants//News of universities. Nuclear power. 2016. № 1. S. 138-148.

16. Alchagirov B.B., Dyshekova F.F., Kokov Z.A., Kyasova O.Kh., Taova T.M., Beslaneeva Z.O., Khokonov H.B. Experimental installation for studying the wettability of solid surfaces by liquid metal melts//Izvestia RAN. Series Physical. 2017. T. 81, NO. 5. S. 703-708.

17. Alchagirov B.B., Dadashev R.Kh., Dyshekova F.F., Kanametova O.Kh., Elimkhanov D.Z. Study of surface properties of liquids using modern automated experimental installations//Nalchik: KBSU. 2021. 144 p.

18. Alchagirov B.B., Dyshekova F.F., Karamurzov B.S., Taova T.M., Khokonov H.B. Wettability of reactor steels 12Х18Н10Т and EK-173 by the eutectic melt PbBi and its alloys with lithium//Izvestia RAN. Series Physical. 2016. VOL. 80, NO. 11. S. 1570-1575.

19. Jasnow D. Critical phenomena at interfaces // Rep. Prog. Phys., 1984. V. 47, N 9. P. 1059–1132.

20. Marmur A. Hydro – hygro – oleo – omni-phobic? Terminology of wettability classification // Soft Matter. 2012.

21. V. 8, N 26. P. 6867–6870.

22. Della Volpe C., Siboni S. Use, abuse, misuse and proper use of contact angles: a critical review // Reviews of Adhesion and Adhesives. 2015. V. 3, N 4. P. 365–385.

23. Fiflis P., Press A., Xu W., Andruczyk D., Curreli D., Ruzic D. N. Wetting properties of liquid lithium on select fusion relevant surfaces // Fusion Engineering and Design. 2014. V. 89, N 12. P. 2827-2832.

24. Alchagirov B.B., Dyshekova F.F., Kokov Z.A., Kyasova O.Kh., Taova T.M., Beslaneeva Z.O., Khokonov H.B. Experimental installation for studying the wettability of solid surfaces by liquid metal melts//Izvestia RAN. Series Physical, 2017. T. 81, NO. 5. C. 703–708.

25. Protsenko P., Terlain A., Jeymond M., Eustathopoulos N. Wetting of Fe–7.5% Cr steel by molten Pb and Pb– 17Li // J. Nuclear Materials. 2002. V. 307. R. 1396-1399.

26. Williamson J.C., Weatherford Emily E., Makayla M. Den Beste, K. Caroline Riley. Off-critical wetting layer divergence at the liquid/vapor interface of binary liquid mixtures // J. Chemical Physics. 2022.

27. V. 157, N 8. P. 13–18.

28. Prozenko P., Terlain A., Traskine V., Eustathopoulos N. The role of intermetallics in wetting in metallic systems // Spripta Materialia. 2001. V. 45. R. 1439-1445.

29. Protsenko P.V. Wetting the surface and grain boundaries of refractory metals with fusible melts: auto ref. dis.... cand. chim. sciences. M.: MOSCOW STATE UNIVERSITY, 2002. 24 pp.


Review

For citations:


Alchagirov B.B., Kanametova O.Kh., Khibiev A.Kh., Kutuev R.A., Dyshekova F.F., Kardangusheva O.A. WETTABILITY OF THE SURFACE OF STEEL 12Cr18Ni9Ti BY LIQUID TIN. Proceedings of the Kabardino-Balkarian State University. 2023;13(3):5-11. (In Russ.) https://doi.org/10.31143/2221-7789-2023-3-05-11. EDN: GZCFLH

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