Abstract
The influence of nitrogen as a microalloying element in steel for metallic structures is investigated. The use of nitrogen to improve the mechanical properties and low-temperature strength of rolled steel in various strength classes is very promising and permits reduction in the steel’s manganese content.
Similar content being viewed by others
References
Houdremont, E., Handbook of Special Steels, Berlin: Springer, 1956.
Gladshtein, L.I. and Litvinenko, D.A., Vysokoprochnaya stroitel’naya stal’ (High-Strength Structural Steel), Moscow: Metallurgiya, 1972.
Leikin, I.M., Litvinenko, D.A., and Rudchenko, A.V., Proizvodstvo i svoistva nizkolegirovannykh stalei (Production and Properties of Low-Alloy Steel), Moscow: Metallurgiya, 1972.
Gol’dshtein, M.I., Grin’, A.V., Blyum, E.E., and Panfilova, L.M., Uprochnenie konstruktsionnykh stalei nitridami (Strengthening of Structural Steels by Nitrides), Moscow: Metallurgiya, 1970.
Sokolovskii, P.I., Malouglerodistye i nizkolegirovannye stali (Low-Carbon and Low-Alloys Steels), Moscow: Metallurgizdat, 1966.
Tylkin, M.A., Bol’shakov, V.I., and Odesskii, P.D., Struktura i svoistva stroitel’noi stali (Structure and Properties of Structural Steel), Moscow: Metallurgiya, 1983.
Skorokhodov, V.N., Odesskii, P.D., and Rudche-nko, A.V., Stroitel’naya stal’ (Structural Steel), Moscow: Metallurgizdat, 2002.
Odesskii, P.D., Smirnov, L.A., and Kulik, D.V., Mikrolegirovannye stali dlya severnykh i unikal’nykh metallicheskikh konstruktsii (Microalloyed Steels for Northern and Special-Purpose Metallic Structures), Moscow: Intermet Engineering, 2006.
Shneerov, Ya.A. and Bikhlevshchuk, V.A., Poluspoikonnaya stal’ (Semikilled Steel), Moscow: Metallurgizdat, 1973.
Gladshtein, L.I., Basko, E.M., Uratskii, M.R., and Streletskii, D.N., Steel for welded metal structures: Design principles, Metallicheskie Konstruktsii. T. 1. Obshchaya chast’ (Metal Structures, Vol. 1: General Considerations), Moscow: Izd. ASV, 1998, pp. 1–88.
Gol’dshtein, M.I. and Farber, V.M., Dispersionnoe uprochnenie stali (Dispersional Strengthening of Steel), Moscow: Metallurgizdat, 1979.
Odesskii, P.D. and Kulik, D.V., Stal’ novogo polokeniya v unikal’nykh sooruzheniya (A New Generation of Steel for Special-Purpose Structures), Moscow: Intermet Engineering, 2005.
Efron, L.I., Metallovedenie v bol’shoi metallurgii. Trubnye stali (Physical Metallurgy in Large-Scale Metallurgy: Pipe Steel), Moscow: Metallurgizdat, 2012.
Pirogov, V.A., Chernenko, V.T., Martsiniv, B.F., et al., Novye nizkolegirovannye kremnistye stali dlya metallicheskikh konstruktsii (New Low-Alloy Silicon Steel for Metal Structures), Moscow: TsNIIChermetinformatsii, 1994.
Tishaev, S.I., Odesskii, P.D., and Parshin, V.A., Improving the cold strength of structural steel, Stal’, 1993, no. 10, pp. 64–70.
Komratov, Yu.S., Odesskii, P.D., Parshin, V.A., et al., Hot-rolled low-manganese steel (strength class S345), Stal’, 1995, no. 1, pp. 47–55.
Tishaev, S.I., Parshin, V.A., Odesskii, P.D., et al., Optimal alloying of low-carbon low-temperature steel for metallic structures, Stal’, 1994, no. 12, pp. 65–70.
Odesskii, P.D., Chernenko, V.T., Kirichkov, A.A., et al., Strengthening of steel for open-air structures in the mill line, Stal’, 1995, no. 12, pp. 59–63.
Odesskii, P.D., Parshin, V.A.,and Tishaev, S.I., Structure and properties of complex rolled components based on microalloyed 18САТЮ steel for use in metallic structures, Stal’, 1996, no. 10, pp. 54–59.
Lakishev, N.P., Tishaev, S.I., and Parshin, V.A., Physicochemical aspects of the microalloying of low-pearlite steel of elevated strength and cold strength for use in metallic structures, Izv. Akad. Nauk, Met., 1995, no. 3, pp. 45–55.
Parshin, V.A., Zakharov, V.A., Kolpakov, S.V., et al., Russian patent 2 000 336, Byull. Izobret., 1993, no. 33–36
Parshin, V.A., Zakharov, V.A., Lakishev, N.P., et al., Russian patent 2000349, Byull. Izobret., 1993, no. 33–36.
Panfilova, L.M., Smirnov, L.A., and Mitchell, P.S., High-strength steel alloyed with nitrogen and vanadium for the production of A500S rebar, Problemy proizvodstva i primeneniya stalei s vanadiem (Production and Use of Vanadium Steel), Yekaterinburg: UrO RAN, 2007, pp. 339–353.
Asnis, A.E. and Ivashchenko, G.A., Povyshenie prochnosti svarnykh konstruktsii (Increasing the Strength of Welded Structures), Kiev: Naukova Dumka, 1985.
Odesskii, P.D. and Vedyakov, I.I., Malouglerodistye stali dlya metallicheskikh konstruktsii (Low-Carbon Steel for Metal Structures), Moscow: Intermet Engineering, 1999.
Odesskii, P.D. and Chernenko, V.T., Complex highstrength rolled steel profiles with structural anisotropy, Metallov. Term. Obrab. Metall., 1992, no. 8, pp. 13–18.
Lagneborg, R., Siwecki, T., Zajac, S., and Hutchinson, B., The role of vanadium in microalloyed steels, Scand. J. Metall., 1999, vol. 28, pp. 186–241.
Tishaev, S.I., Odesskii, P.D., Parshin, V.A., et al., Structure and properties of 10ХСНД steel sheet, Stal’, 1995, no. 7, pp. 57–67.
Vedyakov, I.I. and Odesskii, P.D., Third-generation steel for metal structures, Prom. Grazhd. Stroit., 2013, no. 7, pp. 5–11.
Author information
Authors and Affiliations
Corresponding author
Additional information
Original Russian Text © P.D. Odesskii, L.A. Smirnov, V.A. Parshin, A.A. Kirichkov, 2015, published in “Stal’,” 2015, No. 5, pp. 87–97.
About this article
Cite this article
Odesskii, P.D., Smirnov, L.A., Parshin, V.A. et al. Nitrogen as a microalloying element in steel for metallic structures. Steel Transl. 45, 378–389 (2015). https://doi.org/10.3103/S0967091215050125
Received:
Published:
Issue Date:
DOI: https://doi.org/10.3103/S0967091215050125