Abstract
Results are provided for a study of the physicomechanical properties of austenitic steels 12Kh18N9T and 12Kh18N10T with cold plastic deformation at the level of 0–20%.
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References
A. P. Gulaev, Metal Science [in Russian], Metallurgiya, Moscow (1986).
N. N. Malinin, Applied Theory of Plasticity and Creep [in Russian], Mashinostroenie, Moscow (1968).
M. N. Mikheev, M. M. Belikhova, R. N. Vitkolova, et al., “Electromagnetic method for determining strain-induced martensite in stainless steels,” Defektoskop., No. 10, 48–51 (1985).
V. A. Bubnov, “Increase in the strength of shells and flange billets plastic extension,” Khim. Neft. Mash., No. 10, 26–27 (1985).
V. A. Bubnov, “Improvement of the construction and manufacturing technology for a pendulum centrifuge,” Khim. Neft. Mash. No. 4, 28–29 (1986).
V. A. Bubnov, “Metal-saving technology for manufacturing chemical equipment flanges,” Khim. Neft. Mash. No. 5, 32–34 (1987).
V. A. Bubnov and V. A. Votinov, “Increase in the strength of elliptical dishes by plastic compression,” Kuznechno-Shtamp. Proizv., No. 9, 21–22 (1988).
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Translated from Khimicheskoe i Neftegazovoe Mashinostroenie, No. 7, pp. 45–47, July, 2008.
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Bubnov, V.A. Strain hardening of austenitic steels and a reduction in the material content of equipment. Chem Petrol Eng 44, 409–413 (2008). https://doi.org/10.1007/s10556-008-9079-6
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DOI: https://doi.org/10.1007/s10556-008-9079-6