Abstract
An algorithm is proposed for the numerical computation of the temperatures, stresses, and strains in articles during heat treatment. Specific computations are performed for plates from ShKh15 steel.
This is a preview of subscription content, log in via an institution to check access.
Similar content being viewed by others
Literature cited
A. V. Zhukevich-Stosha, “Hardening process and method of numerical determination of the originating stresses,” Zh. Tekh. Fiz.,10, No. 6, 478–490 (1940).
F. S. Belenov, “Hardening kinetics and determination of the time hardening stresses,” Zh. Tekh. Fiz.,22, No. 1, 111–120 (1952).
F. S. Belenov, “On the approximate determination of residual hardening stresses,” Zh. Tekh. Fiz.,23, No. 11, 2048–2055 (1953).
F. S. Belenov, “Approximate formulas for the time hardening stresses under bilateral cooling of a hollow cylinder,” Zh. Tekh. Fiz.,23, No. 11, 2045–2047 (1953).
V. A. Lomakin, “Theoretical determination of the residual stresses in heat treatment of metals,” Strength Problems in Machine Construction [in Russian], No. 2, Moscow (1959), pp. 72–83.
N. I. Zagryatskii, Uch. Zap. Gor'kov. Univ., No. 142, 25–33 (1971).
Yu. A. Samoilovich et al., “Mathematical model of the steel-article cooling process with austenite dissociation taken into account,” Metalloved. Term. Obrab. Met., No. 9, 12–14 (1979).
Yu. A. Samoilovich and V. E. Loshkarev, “Determination of temperature fields of articles during hardening,” Metalloved. Term. Obrab. Met., No. 4, 10–13 (1980).
A. G. Spektor and N. I. Stepanova, “Investigation, using an electronic computer, of the temperature, strain, and stress distribution in steel plates during hardening,” Metalloved. Term. Obrab. Met., No. 4, 7–12 (1975).
A. A. Presnyakov, Superplasticity of Metals and Alloys [in Russian], Nauka, Alma-Ata (1969).
B. A. Boley and J. H. Weiner, Theory of Thermal Stresses, Wiley (1960).
V. I. Makhnenko, Computational Methods of Investigating the Kinetics of Welding Stresses and Strains [in Russian], Naukova Dumka, Kiev (1976).
L. M. Kachanov, Principles of Plasticity Theory [in Russian], Nauka, Moscow (1969).
N. I. Bezukhov, Principles of the Theories of Elasticity, Plasticity, and Creep [in Russian], Vysshaya Shkola, Moscow (1968).
S. F. Yur'ev, Specific Phase Volumes in Martensite Transformation of Austenite [in Russian], Metallurgizdat, Moscow (1950).
A. A. Popov and L. E. Popova, Isothermal and Thermokinetic Dissociation Diagrams of Supercooled Austenite. Heat Specialist Handbook [in Russian], Metallurgiya, Moscow (1965).
D. N. Lakhtin, Metal Science and Heat Treatment of Metals [in Russian], Metallurgizdat, Moscow (1976).
A. A. Shlykov, Heat Specialist Handbook [in Russian], Mashgiz, Moscow (1961).
B. E. Neimark (ed.), Physical Properties of Steel and Alloys Used in Energetics (Handbook) [in Russian], Énergiya, Moscow-Leningrad (1967).
Yu. I. Zhvinis, “Investigation of certain methods of diminishing the warping during heat treatment of steel articles of lowered stiffness,” Candidate's Dissertation, Minsk (1978).
Yu. I. Zhvinis and A. É. Pavaras, “Increase in the plasticity of instrumental steels during hardening and tempering,” Nauch. Tr. Vyssh. Uchebn. Zaved., Lit. SSR,6, 126–146 (1979).
Author information
Authors and Affiliations
Additional information
Translated from Inzhenerno-Fizicheskii Zhurnal, Vol. 44, No. 2, pp. 304–310, February, 1983.
Rights and permissions
About this article
Cite this article
Geller, M.A., Parnas, A.L. Numerical investigation of the temperatures and thermal stresses in thermal treatment of metallic articles. Journal of Engineering Physics 44, 215–220 (1983). https://doi.org/10.1007/BF00826152
Received:
Issue Date:
DOI: https://doi.org/10.1007/BF00826152