This is a preview of subscription content, log in to check access.
Buy single article
Instant access to the full article PDF.
Price includes VAT for USA
Subscribe to journal
Immediate online access to all issues from 2019. Subscription will auto renew annually.
This is the net price. Taxes to be calculated in checkout.
N. I. Kobashko, "Increasing the service life of machines and instruments through the use of intensive quench cooling," MiTOM, No. 10, 47–52 (1986).
V. S. Morganyuk, "The thermal and stress-strain state of complex shaped steel articles during quenching," Synopsis of Doctoral Thesis, Kiev (1982).
N. A. Adamova, "The thermal-physical basis for the heat treatment regimes used for large rollers," Synopsis of Doctoral Thesis, Sverdlovsk (1986).
N. I. Kobasko, The Quenching of Steel in Liquid Media under Pressure [in Russian], Naukova Dumka (1980).
V. E. Loshkarev, "The temperature and stress state of large forgings during the cooling cycle in the thermal treatment," Synopsis of Doctoral Thesis, Sverdlovsk (1981).
Inventor's Certificate No. 797,243 (SSSR), MKI S 21 D 1/19.
N. I. Kobasko and G. I. Zhovnir, "An analytic method of solving chemical equations in hardening steel items" Visnik AN UkrSSR, No. 12, 41–50 (1979).
N. I. Kobashko and V. S. Morganyuk, A Study of the Thermal and Stress-Strain State of Components used in the Energy Industry during Thermal Treatment [in Russian], Ob. Znanie, Kiev (1983).
N. I. Kobashko, B. I. Nikolin, A. G. Krachinskaya, et al., "Increasing the service life of machines and instruments by imparting high compressive stresses," Izv. Vyssh. Uchebn. Zaved. Mashinostr., No. 10, 153–157 (1987).
L. N. Levitan and I. A. Borisov, "The use of finite element analysis for determining the presence of quench cracks in large-scale rotors," Promysh. Teplotekh. 4, No. 6, 54–59 (1982).
Patent No. 452,965 USA. High carbon steel microcracking control during hardening.
Inventor's Certificate No. 1,215,361 (SSSR) MKI S 21 D 1/78, A Technique for Quehcning Articles made of High Alloy Steels.
Application 61-48514 Japan, A Technique for Quenching Steel, Application date-August 16, 1984, No. 59-170039.
N. A. Adamova, "Problems of the optimizing the quenching of rolling cylinders and methods for solving them," MiTOM, No. 9 (1989).
I. G. Uzlov, "The cooling and structural characteristics, and properties of large metal products during their thermal treatment on the production line," MiTOM, No. 9, 14–19 (1989).
V. K. Babich, "The technological basis of the thermal strengthening of massively shaped rollings," MiTOM, No. 11, 30–31 (1987).
V. S. Chmeleva, "The development of regimes and technology for the thermal strengthening of casing pipes by intensive cooling and with the use of discontinuous accelerated cooling," Synopsis of Doctoral Thesis, Dnepropetrovsk (1983).
Yu. P. Gul', V. S. Chmeleva, and V. V. Kirichenko, "Current trends in the quench cooling of steel," MiTOM, No. 9, 2–6 (1989).
I. A. Borisov, "Increasing the reliability of energy equipment components through the use of intensive quench cooling," MiTOM, No. 9, 23–28 (1989).
B. M. Fedin, V. P. Devyatkin, L. P. Strok, and I. I. Latyshkova, "Increasing the quality and service life of railroad rolling stocks," MiTOM, No. 11, 42–45 (1987).
B. Lishchich and T. Filetin, "The use of data on intensive cooling for predicting hardness distributions," Promysh. Teplotekh., 11, No. 3, 56–64 (1989).
F. Moro and P. Arshambol, "Polymer quenching media and computer controlled spray quenchings," Promysh. Teplotekh., 11, No. 3, 48–55 (1989).
G. T. Bozhko, "The effect of the physical-chemical characteristics of the quench media on the cooling rate," Synopsis of Doctoral Thesis (1984).
G. M. Tenzi and P. Stitsel'berg-Yakrob, "The effect of repeated wettin on the quench process," Promysh. Teplotekh., No. 4 (1989).
Technical Thermal Physics Institute of the Academy of Science, USSR. Translated from Metallovedenie i Termicheskaya Obrabotka Metallov, No. 9, pp. 7–14, September, 1989.
About this article
Cite this article
Kobasko, N.I. Increasing the service life and reliability of components through the use of new steel quenching technology. Met Sci Heat Treat 31, 645–653 (1989). https://doi.org/10.1007/BF00717481
- Service Life