Conclusion
Representing phse transformation diagrams to equivalent time and description of the structural transformations in the form of multidimensional diagrams are sufficient for controlling the quantity of the structure of steel to a real time scale in rapid continuous treatment.
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Literature cited
I. V. Frantsenyuk, O. V. Bondar', V. P. Saklakov, and A. L. Serov, "Automated systems of control in sheet mill," Stal', No. 5, 44–47 (1985).
Yu. D. Zheleznov, N. M. Fedosov, Yu. A. Mukhin, et al., "Controlling strip quality on continuous wide strip mills," Izv. Vyssh. Uchebn. Chern. Met., No. 5, 113–115 (1976).
P. I. Polyukhin, D. A. Zaugol'nikov, M. A. Tylkin, et al., The Quality of Sheet and Methods of Continuous Rolling [in Russian], Nauka, Alma-Ata (1976).
J. Murray and D. Orser, "Interactive computer graphics graphics for storing diagrams," Bull. Alloy Phase Diagrams,1, No. 1, 19–21 (1980).
A. L. Udovskii, "The modern state and prospects of thermodynamic calculation of phase diagrams of three- and more-component systems," in: Phase Diagrams of Metal Systems [in Russian], Nauka, Moscow (1981), pp. 17–57.
V. S. Shein, "Possibilities and problems of the development of an information searching system for metallurgy," Izd. Akad. Nauk SSSR, Met., No. 2, 141–145 (1962).
L. Kaufman and H. Berstein, Calculation of Phase Diagrams with the Use of the Computer [Russian translation], Mir, Moscow (1972).
F. S. Novik and N. A. Tseitlin, "An analytical description of phase diagrams with the use of indicator functions," Neorg. Khim.,26, No. 3, 756–760 (1981).
S. A. Frolov, Automation of the Process of Graphic Solution of Problems [in Russian], Vyshaya Shkola, Minsk (1980), pp. 90–105.
S. S. Gorelik, Recrystallization of Metals and Alloys [in Russian], Metallurgiya, Moscow (1978).
D. I. Berezhkovskii, "A new type of recrystallization diagrams and the method of construction of them," Zavod. Lab., No. 12, 1482–1487 (1964).
Yu. M. Vainblat and P. Sh. Lantsman, "The conditions of obtaining a controlled structure in drop forgings of 1201 alloy," Tekhnol. Leg. Splav., 6–11 (1974).
M. A. Shtremel', V. I. Lizunov, and V. V. Shkatov, "Multidimensional diagrams of the kinetics of transformation for prediction of the condition of an alloy," Zavod. Lab., No. 12, 40–44 (1983).
M. A. Stremel, "Einige Geometriche und Kinetische Abschatzungen und Rekristallisations-eschenungen," Neue Hütte, No. 1, 634–636 (1977).
M. A. Shtremel', V. I. Lizunov, V. V. Shkatov, and A. V. Aldunin, "Transformation of the grains in primary recrystallization," Metalloved. Term. Obrab. Met., No. 6, 2–5 (1984).
M. L. Bernshtein, Ya. B. Gurevich, V. A. Zaimovskii, et al., "The influence of the hold after deformation on the isothermal transformation in 36G2S steel," Byull. Tsent. Nauk.-Issled. Inst. Chern. Met., No. 4(720), 54–55 (1974).
Yu. I. Matrosov, "The influence of the conditions of controlled rolling on the structural transformations and properties of low-pearlite steels," Stal', No. 2, 68–72 (1985).
K. J. Irvine, T. Gladman, J. Orr, and F. B. Pickering, "Controlled rolling of structural steel," J. Iron Steel Inst.,208, No. 8, 717–726 (1970).
M. A. Shtremel', V. I. Lizunov, V. V. Shkatov, and O. A. Raybchikov, "Optimization of the structure of hot-rolled low-carbon steel," Stal', No. 3, 69–71 (1983).
P. V. Romanov and R. P. Ryadchenko, Transformations of Austenite in Continuous Cooling: Atlas of Diagrams [in Russian], Sib. Otd. Akad. Nauk SSSR, Novosibirsk (1969).
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Moscow Institute of Steel and Alloys. Translated from Metallovedenie i Termicheskaya Obrabotka Metallov, No. 10, pp. 4–7, October, 1987.
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Shtremel', M.A., Lizunov, V.I. The use of the rules of structural transformations in automated systems for control of continuous production. Met Sci Heat Treat 29, 718–721 (1987). https://doi.org/10.1007/BF00707726
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DOI: https://doi.org/10.1007/BF00707726