Conclusions
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1.
Determination of hardenability of cylindrical parts can be achieved with sufficient accuracy using a combined calculation-experimental method.
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2.
The viscous-elastic model produces more accurate results in calculation of the stresses arising during quenching than does the elastoplastic model.
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Literature cited
A. A. Shmykov Heat Treatment Handbook [in Russian], Mashgiz, Moscow (1961).
Physical Properties of Steels and Alloys Used in Power Plants (Handbook) [in Russian], Énergiya, Moscow-Leningrad (1967).
V. V. Goryushin and N. I. Kobasko, “Properties of water-based quenching media with polymer PK-2 additions” Metalloved. Term. Obrab. Met., No. 7, 29–32 (1984).
B. A. Boley and J. H. Weiner, Theory of Thermal Stresses, Wiley (1960).
L. D. Sokolov, Resistance of Metals to Plastic Deformation [in Russian], Metallurgiya, Moscow (1963).
Additional information
State All-Union Automobile and Automobile Engine Scientific-Research Institute (NAMI), Likhachev Industries (ZIL). Translated from Metallovedenie i Termicheskaya Obrabotka Metallov, No. 10, pp. 52–55, October, 1986.
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Ustilovskii, S.Y., Ostrovskii, G.A. & Ryskind, A.M. Calculation of the temperture and stress distribution during quenching of cylindrical parts. Met Sci Heat Treat 28, 765–769 (1986). https://doi.org/10.1007/BF00741870
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DOI: https://doi.org/10.1007/BF00741870