Abstract
The influence of temperature-time ferrite aging parameters on mechanical properties and structural modifications in 09Mn2Si (grade A), 38CrNi3MoV (grade A), and 10MnNi2MoV (grade A) steels is studied. The carbide phase transformation method allowing an increase in brittle-fracture resistance of these steels is proposed.
Similar content being viewed by others
References
Zav’yalov, A.S., Fazovye prevrashcheniya v zhelezouglerodistykh splavakh (Phase Transformations in Iron-Carbon Alloys), Leningrad: Sudpromgiz, 1948.
Filimonov, G.N., High-reliable materials for ship shaftings, in Po puti sozidaniya (On the Way of Creation), St. Petersburg: Prometei, 1999, pp. 161–185.
Pigrova, G.D., Effect of long-term operation on carbide phases in Cr-Mo-V steels, Mater. Sci. Heat Treat., 2003, vol. 45, pp. 84–87.
Sichikov, M.F., Metally v turbostroenii (Metals in Turbine Construction), Moscow: Mashinostroenie, 1974.
Metallovedenie i termicheskaya obrabotka stali i chuguna (Metal Science and Heat Treatment of Steel and Cast Iron), Gudtsov, N.T., Bernshtein, M.L., and Rakhshtadt, A.G., Eds., Moscow: Metallurgizdat, 1956.
Parshin, A.M., Struktura, prochnost’ i radiatsionnaya povrezhdaemost’ korrozionno-stoikikh stalei i splavov (Structure, Strength and Radiation Fault Probability of Corosion-Steady Steels and Alloys), Moscow: Metallurgiya, 1988.
Olenin, M.I., Kolosov, I.E., and Novikov, E.V., Effect of ageing kinetics on strengthening and brittlement of martensite-ageing steels, in Ekspluatatsionnaya nadezhnost’ korabel’nykh tekhnicheskikh sredstv (Exploitation Safety of Ship Technical Means), St. Petersburg: VVMIOLU im. F.E. Dzerzhinskogo, 1995, pp. 97–98.
Teplukhin, G.N., Zakonomernosti strukturoobrazovaniya v stalyakh perlitnogo klassa (Regularities of Structure Formation in Steels of Perlite Class), Leningrad: Len. Gos. Univ., 1982.
Pigrova, G.D. and Korkka, S.I., Formation of carbide phases in 34HN1M steel during tempering at 550–700°C, Metal. Sci. Heat Treat., 1991, vol. 33, pp. 31–35.
Larionov, V.P., Svarka i problemy vyazko-khrupkogo perekhoda (Welding and Problems of Visco-Brittle Transformation), Novosibirsk: Sib. Otd. Ross. Akad. Nauk, 1998.
Solntsev, Yu.P. and Ermakov, B.S., Resurs materialov nizkotemperaturnykh konstruktsii (Resource of Low-Temperature Construction Materials), St. Petersburg: Khimizdat, 2006.
Engel’, L. and Klingele, G., Rastrovaya elektronnaya mikroskopiya. Razrushenie: Spravochnik (Bit-Mapped Electron Microscopy. Destruction. An Handbook), Moscow: Metallurgiya, 1986.
Smirnov, V.I., Sopochkin, G.G., and Tyubin, N.I., Study of possibility of increasing of performance reports of fastening steel of 36Kh2N2MFA and 38KhN2MFA grades, Sudostr. Prom., Ser. Metalloved., W 1987, No. 5, pp. 57–63.
Author information
Authors and Affiliations
Corresponding author
Additional information
Original Russian Text © V.I. Gorynin, M.I. Olenin, N.A. Khlyamkov, B.T. Timofeev, 2013, published in Voprosy Materialovedeniya, 2013, No. 1(73), pp. 7–19.
Rights and permissions
About this article
Cite this article
Gorynin, V.I., Olenin, M.I., Khlyamkov, N.A. et al. A carbide phase transformation method as a factor of high brittle-fracture resistance of constructional steels. Inorg. Mater. Appl. Res. 5, 545–553 (2014). https://doi.org/10.1134/S2075113314060045
Received:
Accepted:
Published:
Issue Date:
DOI: https://doi.org/10.1134/S2075113314060045