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HomeMaterials Science ForumMaterials Science Forum Vol. 1037Model of Layer-by-Layer Cooling Trajectory in...

Model of Layer-by-Layer Cooling Trajectory in Rolled Products by TMCP

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Abstract:

The paper describes some aspects of a scientific and research project dedicated to mechanical property prediction in plates for pipe production rolled at PJSC MMK 5000 Mill. The prediction is based on billet thermal state modelling by thermo-mechanical control process (TMCP) of rolling and subsequent cooling. The central focus of the modelling is the calculation of billet layer-by-layer cooling trajectory. The paper presents some results of model verification by test rolling.

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Periodical:

Materials Science Forum (Volume 1037)

Pages:

390-399

DOI:

https://doi.org/10.4028/www.scientific.net/MSF.1037.390

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Online since:

July 2021

Authors:

Sergey I. Platov*, Konstantin B. Maslennikov, Nikolay V. Urtsev, Roman R. Dema, Elena Yu. Zvyagina

Keywords:

Accelerated Cooling, Rolled Products for Pipes

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© 2021 Trans Tech Publications Ltd. All Rights Reserved

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[1] Information on https://asb.opec.org/ASB_Charts.html?chapter=10.

[2] S.I. Platov, K.B. Maslennikov, V.L. Kornilov, V.A. Nekit, N.V. Urtsev. Prediction Features of Microstructure in Case of Production of Thick-Sheet Rolled Tubular Products, Proizvodstvo Prokata (Rolled Products Manufacturing) № 11 (2019) 6-12.

[3] S.I. Platov, K.B. Maslennikov, M.L. Lobanov, Technologies for Strength Characteristics Prediction in Case of Production of Thick-Sheet Rolled Tubular Products, in: V.V. Rubanik (Ed.), Emerging Materials and Technologies in 2 Volumes, UO Vitebsk State Technological University, Vitebsk, 2019, Volume 2, pp.67-86.

[4] S.I. Platov, K.B. Maslennikov, N.V. Urtsev, Structure Formation in Microalloyed Rolled Tubular Products at a Contemporary Mill, in: V.V. Rubanik (Ed.), Contemporary Strength Problems, Molodechno, 2020, pp.434-448.

[5] I.A. Artemiev, M.L. Krasnov, G.M. Rusakov, S.V. Danilov, Determination of Thermal Effects of Diffusionless Phase Transformations in Low-Carbon Low-Alloy Steels at High Cooling Rates, Diagnostics, Resource and Mechanics of Materials and Structures Iss. 6. (2018) 173-183.

DOI: 10.17804/2410-9908.2018.6.173-183

[6] V.N. Urtsev, A.V. Shmakov, E.D. Mokshin, N.V. Urtsev, V.L. Kornilov, M.L. Krasnov, P.A. Stekanov, S.I. Platov, I.K. Razumov, Y.N. Gornostyrev, V.M. Schastlivtsev, Formation of the Structural State of a High-Strength Low-Alloy Steel upon Hot Rolling and Controlled Cooling, The Physics of Metals and Metallography Volume 120 № 12 (2019) 1233-1241.

DOI: 10.1134/s0031918x19120160

[7] D.M. Khabibulin, S.A. Morozov, A.V. Kaptsan, V.N. Urtsev, Wire-rod Cooling Process Modelling, OJSC MMK Technology Enhancement: Collection of OJSC MMK Central Laboratory Works, 6 (2002), 336-345.

[8] I.V. Vier, A.V. Kozulina, S.A. Murikov, Mathematical Modelling of Temperature Fields in Working Rolls of a Hot-Rolling Mill, in: V.N. Urtsev (Ed.), Phase and Structure Transformations in Steels, Magnitogorsk, 2002, Iss. 2, pp.374-384.

[9] V.N. Urtsev, S.I. Platov, S.A. Murikov, et al., Mathematical Modelling of Metal Cooling Process by Light Rolling, Works of the Sixth Roller Congress, Lipetsk, 2005, Volume 1, 343-344.

[10] A.V. Shmakov, V.M. Salganik, S.V. Denisov, D.O. Pustovoytov, Development and Analysis of Heavy Plate Rolling Temperature Modes Using Process Mathematical Modelling, Collection of Reports of XVIII Scientific Technological Conference PIPES-2010,, Chelyabinsk (2010).

[11] V. Salganik, A. Shmakov, A. Pesin, D. Pustovoytov, Plate Rolling Modeling at Mill 5000 of OJSC Magnitogorsk Iron and Steel, for Analysis and Optimization of Temperature Rates, Proceedings of the 10th International Conference on Numerical Methods in Industrial Forming Processes NUMI‐FORM 2010, Pohang, Republic of Korea, 2010, 602-608.

DOI: 10.1063/1.3457609

[12] V.M. Salganik, A.V. Shmakov, D.O. Pustovoytov, Modelling of Controlled Rolling Process of Pipe Billet at OJSC MMK Mill 5000, Collection of Works of VIII International Roller Congress, Magnitogorsk, (2010).

DOI: 10.1063/1.3457609

[13] S.A. Murikov, V.N. Urtsev, U.N. Gornostyrev, A.V. Shmakov, Mathematical Modelling of Thermal Treatment of a Billet during Phase Transformations, in: V.N. Urtsev (Ed.), Phase and Structure Transformations in Steels, Magnitogorsk, 2010, Iss. 6, pp.397-407.

[14] A.R. Gareev, A.V. Shmakov, S.A. Murikov, V.N. Urtsev, D.Kh. Devyatov, Development of a Software Solution for Metal Thermal State Calculation at a Hot-Rolling Mill, Metallurg, № 12 (2011) 82-86.

DOI: 10.1007/s11015-012-9524-9

[15] A.V. Shmakov, V.M. Salganik, S.V. Denisov, A.R. Gareev, D.O. Pustovoytov, Comprehensive Modelling of Pipe Billet Controlled Rolling Technology on the Basis of Process Temperature Condition Modelling, Steel, № 2 (2012) 42-46.

[16] A.R. Gareev, A.V. Shmakov, S.A. Murikov, V.N. Urtsev, D.Kh. Devyatov, Mathematical Description of Interaction between Hot Metal and a Stream of Water, Thermal Engineering and Informatics in Education, Science and Production: Proceedings of I Russian National Scientific Conference, Ural Federal Institute, Yekaterinburg (2012) 32-36.

[17] A.R. Gareev, A.V. Shmakov, S.A. Murikov, V.N. Urtsev, D.Kh. Devyatov, Creation of a Software Package for Calculating the Thermal State of Metal in a Hot‐Rolling‐Mill Line, Metallurgist: Springer New York Consultants BureauISSN, Volume 55, Issue 11-12 (2012) 935-940.

DOI: 10.1007/s11015-012-9524-9

[18] A.R. Gareev, S.A. Murikov, S.I. Platov, V.N. Urtsev, A.V. Shmakov, Heat Balance of a Semi-Finished Rolled Product at a Wide-Strip Hot-Rolling Mill, in; V.M. Salganik (Ed.), Modelling and Development of Metal Pressure Treatment Processes, Nosov Magnitogorsk State Technical University, Magnitogorsk, 2014, pp.250-258.

DOI: 10.18503/1995-2732-2020-18-1-49-54

[19] A.R. Gareev, S.A. Murikov, S.I. Platov, V.N. Urtsev, A.V. Shmakov, Investigation of Capabilities to Achieve Thermal Regime on Hot Rolling Mill Equipment, Fundamental and Applicable Research in Contemporary World, Future Strategy, Saint Petersburg, 2015, Volume 1, pp.30-34.

[20] A.R. Gareev, S.A. Murikov, S.I. Platov, V.N. Urtsev, A.V. Shmakov, Calculation of Thermomechanical Modes and Applied Setting of a Wide-Strip Hot-Rolling Mill at Test Rolling of Complex Products, Proizvodstvo Prokata (Rolled Products Manufacturing) № 5 (2015) 14-17.

[21] S.I. Platov, K.B. Maslennikov, M.L. Lobanov, Impact of Thermomechanical Treatment Parameters on Thick-Sheet Rolled Tubular Products, in: V.V. Rubanik (Ed.), Emerging Materials and Technologies, UO Vitebsk State Technological University, Vitebsk, 2019, pp.516-517.

[22] S.I. Platov, R.R. Dema, O.R. Latypov, V.S. Banshchikov, V.A. Mustafin, M.V. Kharchenko, D.V. Terentyev, Influence Study of Temperature-Speed Conditions of Hot Rolling on Scaling Process, Russian Metallurgy, № 12 (2020) 36-40.

DOI: 10.1134/s0036029521130231

[23] A.V. Koldin, S.I. Platov, R.R. Dema, D.V. Terentyev, O.R. Latypov, R.N. Amirov, Determination of the Grain Size on the Basis of the Developed Mathematical Model of the Laminar Cooling System of the Strip of the Hot Rolling Mill 2000,, Proceedings of the TSU. Technical Sciences, №10 (2020) 67-72.

[24] A.V. Koldin, R.R. Dema, M.V. Nalimova, E. Mihailov, A.N. Shapovalov, M.V. Kharchenko, Modeling of the Thermal State of the Hot Rolled Strip in the Accelerated Cooling Process Part I: Heat Transfer Model, Journal of Chemical Technology and Metallurgy, Volume 54 № 6 (2019) 1330-1336.

[25] A.V. Koldin, R.R. Dema, M.V. Nalimova, A.N. Shapovalov E. Mihailov, Modeling of the Thermal State of the Hot Rolled Strip in the Accelerated Cooling Process Part 2: a Calculation of the Thermal Field of the Strip. Results and Conclusions, Journal of Chemical Technology and Metallurgy, Volume 55 (2020) № 1 171-181.

[26] S.I. Platov, R.R. Dema, S.I. Lukyanov, Development and Implementation of Cooling Technology for Rolls to Increase their Performance Characteristics at OJSC MMK Wide-Strip Hot-Rolling Mill 2000, Vestnik of Nosov Magnitogorsk State Technical University, № 2 (2012) 100-101.

DOI: 10.17580/cisisr.2018.01.04