employee
Omsk, Omsk, Russian Federation
Omsk, Omsk, Russian Federation
Omsk, Omsk, Russian Federation
Omsk, Omsk, Russian Federation
The modes of high tempering are investigated, making it clear that at temperatures above 500 °C, a whole or partial replacement of lamellar perlite with granular is observed.
normalization, high tempering, annealing, cold-pressing, medium-carbon steels
1. Kremnev, L. S., Svishchenko, V. V., Cheprasov, D. P. Structure and mechanism of formation of granular bainite in steel 20X2NACH . MiTOM. - 1997, no. 9, pp. 6-9.
2. Svishchenko, V. V. Structure and mechanism of formation of granular bainite. // Trudi Altaiskogo Gosudartvennogo universiteta imeny I I Polzunov, Barnaul, AltSTU, 1995, pp. 44-50.
3. Kushner, V. S., Burgonova, O. Yu., Negrov, D. A., Novikov, A. A., Skhirtladze, A. G. Materials Science: textbook, Omsk, OmSTU, 2014, 252 p.
4. Samokhotsky, A. I., Parfenovskaya, N. G. Technology of heat treatment of metals. - M.: Mashinostroenie, 1976, 311 p.
5. Jumaidin, R., Jopri, I.M., Hasan, R., Saleman, A.R., Idral, F. Effect of cooling medium and tempering on micro-structures and hardness of sk3 high carbon steel // Journal of Advanced Research in Fluid Mechanics and Thermal Scien-ces, 2019,Vol. 63(2), PP. 199-209.
6. Wakjira, M.W., Altenbach, H., Ramulu, P.J. CSN 12050 carbon steel mechanical property enhancement using thermal treatment to optimize product sustainability // Lecture Notes of the Institute for Computer Sciences, Social-Informatics and Telecommunications Engineering, 2019, Vol. 274, PP. 113-121.
7. Singh, S.S., Awale, A.S., Chaudhari, A., Nahak, B. Monitoring the microstructural changes of heat treated medium carbon steel by Barkhausen noise and hysteresis loop tech¬niques // Materials Today: Proceedings, 2019, Vol. 26, PP. 1198-1202.
8. Sundar Singh Sivam, S.P., Loganathan, G.B., Umasekar, V.G., Suresh Kumar, P.S., Raja, S. Study on microstructural characteristics and mechanical behaviour of AISI1050 steel under various heat treatments // International Journal of Vehicle Structures and Systems, 2019, Vol. 11, № 1, PP. 15-20.
9. Sundar Singh Sivam, S.P., Loganathan, G.B., Shobana Swarna Ratna, P.R., Balakumaran, G. Improvement of product quality by process parameter optimization of AISI 1050 by different heat treatment conditions: Ranking algorithm and ANOVA // International Journal of Innovative Technology and Exploring Engineering, 2019, Vol. 8(5), PP. 30-35.
10. Cementite in carbon steels: joint monograph. Shchas-tyantsev, V. M., Medvedeva, N. I. et al. / Publishing house of UMTS UPI, 2017, [electronic resource]. URL: http://elar.urfu.ru/handle/10995/55989 (accessed 22.12.2020).
11. Sosnin, O. V., Zellermaer, V. V., Ivanov, Yu. F. Evolution of the structure and transfer of carbon atoms in the zone of fatigue growth of a ferri-perlite steel crack, Izvestiya Vuzov. Physics, 2003, no. 10, pp. 79-87.
12. Makarov, A.V., Schastlivtsev, V. M., Tabatchikova, T. I. Wear resistance of hypereutectoid carbon steels with structures of isothermal decomposition of austenite, Physics of metals and Metallovedenie, 2004, Vol. 97, no. 5, pp. 94-105.
13. Shchastyavtsev, V.M., Tabatchikova, T.I., Makarov, A.V. The effect of solid-solution hardening of ferrite and spheroidization of cementite on the wear resistance of eutectoid carbon steel with a thin-plate perlite structure, Physics of Metals and Metallovedenie,1999, Vol. 88, no. 1, pp. 94-103.
14. Novikov, I. I. Theory of heat treatment of metals 3rd edition, revised and corrected, M.: Metallurgy, 1978, 392 p.
15. Gupta, S., Sarkar, J., Banerjee, A., Bandyopadhyay, N.R., Ganguly, S. Grain Boundary Detection and Phase Segmentation of SEM Ferrite-Pearlite Microstructure Using SLIC and Skeletonization // Journal of The Institution of Engineers (India): Series D, 2019, Vol. 100(2), PP. 203-210.
