A physical simulation technique was used to study the processes of heat transfer between solidifying metal and CCM mold during continuous casting of steel. Variation trends have been established with respect to the amount of heat transferred from liquid metal to solidified crust, from billet surface to the mold tube, and from the mold tube to cooling water. Practical recommendations were suggested concerning an increase in heat transfer efficiency for the described stages of heat transfer from solidifying metal to cooling water.
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References
A. Kh. Dymnich and A. A. Troyanskii, Aspects of Heat and Mass Transfer in Steelmaking Processes [in Russian], DVNZ DonNTU, Donetsk (2009).
S. S. Kutateladze, Fundamentals of the Theory of Heat Transfer [in Russian], Atomizdat, Moscow (1979).
V. A. Efimov and A. S. Eldarkhanov, Technologies of Modern Metallurgy [in Russian], Novye Tekhnologii (2004).
A.S. Nuradinov, “Heat transfer processes during formation of continuously cast billets,” Liteishchik Rossii, 7, 34–37 (2006).
A. S. Nuradinov, A. S. Eldarkhanov, and Ye. D. Taranov, “Heat transfer processes during formation of continuously cast billets in the elastic wave field,” Stal, 6, 51–52 (2006).
A. S. Eldarkhanov, A. S. Nuradinov, L. Kh.-A. Saipova, and I. A. Nuradinov, “Enhancement of heat transfer through a gas-filled gap in CCM mold,” Stal, 4, 8–11 (2016).
A. S. Nuradinov, A. S. Eldarkhanov, A. Kh. Dymnich, et al., “Method of optimizing the thermal performance of CCM molds,” Protsessy Litya, 2, 42–51 (2016).
A. S. Nuradinov, A. S. Eldarkhanov, N. S. Uzdieva, et al., “CMM mold coolant flow rate as a factor of enhancement of heat transfer processes in it,” Stal, 3, 19–21 (2017).
A. S. Nuradinov, A. V. Nogovitsyn, I. A. Nuradinov, et al., “Procedure for determining the heat transfer coefficient of the coolant in CCM mold,” Protsessy Litya, 2, 45–52 (2017).
A. S. Eldarkhanov, A. S. Nuradinov, S. S.-S. Akhtaev, et al., “Enhancement of heat transfer in CCM mold,” Stal, 5, 21–25 (2017).
A. S. Nuradinov, A. V. Nogovitsyn, I. A. Nuradinov, et al., “The effect of the shape of heat transfer surface on thermal performance of CCM mold,” Protsessy Litya, 3, 43–51 (2017).
A. S. Eldarkhov, A. S. Nuradinov, and S. S.-S. Akhtaev, “Controlling the formation of continuously cast billets using vibration of CCM mold,” Metallurg, 12, 29–34 (2017).
T. Cebeci and P. Bradshow, Convective Heat Transfer [in Russian], Mir, Moscow (1987).
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Translated from Metallurg, Vol. 63, No. 1, pp. 17–23, January, 2019.
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Éldarkhanov, A.S., Nuradinov, A.S., Uzdieva, N.S. et al. Optimization of Thermal Performance of CCM Mold. Metallurgist 63, 11–20 (2019). https://doi.org/10.1007/s11015-019-00789-9
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DOI: https://doi.org/10.1007/s11015-019-00789-9