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Translated from Metallurg, No. 10, pp. 81–84, October, 2014.
The essence of the two main methods of modeling processes – mathematical modeling and physical modeling – is examined in survey form along with each method’s advantages and disadvantages. Information is provided on the laboratory complex Termodeform MGTU, which was created to develop and study new chemical compositions for low-alloy steels and regimes for their hot rolling. A brief description is given of the characteristics of the main equipment of the lab complex and its research potential.
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V. M. Salganik, A. M. Pesin, D. N. Chikishev, et al., “Modeling the stress–strain state of steel plates formed in the rolling of continuous-cast slabs with surface cracks,” Chern. Metally, No. 12, 15–18 (2012).
G. Kunitsin, A. Pesin, V. Salganik, et al., “Research and modeling of transverse metal flow during cold rolling of narrow strip,” Proc. Int. Conf. on Materials Processing Technology MART'2000, Phuket, Thailand, pp. 128–133.
V. M. Salganik, S. V. Denisov, D. N. Chikishev, et al., “Improving the rolling of plates of microalloyed steels of different strength classes based on dilatometric studies,” Proizv. Prokata, No. 5, 5–8 (2011).
I. A. Selivanov, I. G. Gun, V. M. Salganik, et al., “Study of the control systems of a continuous mill by using a mathematical model,” Vestn. Magnitogor. Gos. Tekh. Univ., No. 3, 11–14 (2011).
M. V. Chukin, A. G. Korchunov, and M. A. Polyakova, “Developing an algorithm for control of the structure and properties of nanostructured carbon steels,” Stal, No. 10, 76–81 (2012).
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M. V. Chukin, N. V. Koptseva, and O. A. Nikitenko, “Use of the software ThixometPRO for quantitative analysis of the ultradispersed structure of low- and medium-carbon steel subjected to equal-channel angular pressing,” MiTOM, No. 8, 12–17 (2012).
N. V. Koptseva, M. V. Chukin, M. P. Baryshnikov, and G. S. Gun, “Physical modeling of rheological properties and dilatometric studies in the solution of applied problems concerning the treatment of promising steels and alloys,” Proc. 9th Congr. Rolling-Mill Operators, Cherepovets (2013), pp. 309–319.
M. V. Chukin and A. V. Mokhnatkin, “Creation of a theoretical–experimental algorithm for calculating the reserve ductility of structural steels in multi-stage metal-forming operations,” Izv. Vyssh. Uchebn. Zaved Chern. Metall., No. 11, 11–14 (2011).
N. V. Koptseva, M. V. Chukin, O. A. Nikitenko, and Yu. Yu. Efimova, “Mechanical properties of carbon structural steel with an ultrafine-grained structure,” Chern. Metally, Spec. Iss., 54–59 (2011).
V. M. Salganik, D. N. Ch9ikishev, A. M. Pesin, et al., “Developing an efficient system for the rough rolling of low-alloy steels,” Stal, No. 9, 50–52 (2008).
A. Piesin, V. Salganik, D. Chikishev, et al., “Asymmetric rolling: theory and technology,” Hutnik – Wiadom. Hutn., LXXIX, No. 5, 358–362 (2012).
V. Salganik, A. Pesin, D. Chikishev, et al., “Theoretical basis and technology development of the combined process of asymmetric rolling and plastic bending,” Proc. Int. Conf. on Mechanical Engineering and Technology ICMET'2011, ASME Press, New York, U.S. (2011), pp. 95–99.
- Laboratory Complex for Modeling Production Operations in the Rolling of Plates
V. M. Salganik
P. P. Poletskov
D. N. Chikishev
S. V. Denisov
P. A. Stekanov
- Springer US
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