Paper Titles

Kinetic Description of (Cr, Fe)₇C₃ Carbide Precipitation from Austenite in High-Carbon Fe-Cr-C Ternary Alloys
p.1005

Layered Composite Materials Designed for Higher Corrosion Resistance of Oil Production Equipment
p.1011

Lost Foam Casting with the Use of Recycling and Nanostructured Materials
p.1016

Magnetic Wave Technology of Grinding Slime Separation
p.1020

Mathematical Model of Hot Rolling Temperature Parameters
p.1026

Minimizing the Dynamic Loads in Pilger Rolling Mill Forholler
p.1034

Modern Packaging Materials for Steel Products
p.1040

Modernization of Hot-Rolled Tubes Rolling Method
p.1048

Nonwaste Recycling of Nonferrous Metallurgy Slags in Iron Casting
p.1053

HomeSolid State PhenomenaSolid State Phenomena Vol. 265Mathematical Model of Hot Rolling Temperature...

Mathematical Model of Hot Rolling Temperature Parameters

Article Preview

Abstract:

We herein present a mathematical model of hot rolling temperature parameters that factors in how the strip temperature changes in the rolling stand and in the inter-stand gap as well as when metal is transported along the mill train. It factors in the temperature losses caused by thermal radiation and the convective transfer of heat from and to the environment, occurring in the inter-stand gap; temperature losses are also caused by the contact heat transfer from and to the rollers as well as by the heating of the strip in the plastic deformation site. This paper presents the results of using this model to make calculations for a wide-strip hot rolling mill. It illustrates how the model could be used in the algorithm for building a state-of-the-art virtual training simulator.

You might also be interested in these eBooks

Materials Engineering and Technologies for Production and Processing III

Info:

Periodical:

Solid State Phenomena (Volume 265)

Pages:

1026-1033

DOI:

https://doi.org/10.4028/www.scientific.net/SSP.265.1026

Citation:

Cite this paper

Online since:

September 2017

Authors:

M.A. Sosedkova, L.V. Radionova, T.A. Lisovskaya*

Keywords:

Hot Rolling, Mathematical Rolling Process Model, Rolling Temperature Parameters, Virtual Training Simulator, Wide-Strip Mills

Export:

RIS, BibTeX

Price:

Permissions CCC:

Request Permissions

Permissions PLS:

Request Permissions

Сopyright:

© 2017 Trans Tech Publications Ltd. All Rights Reserved

Share:

Citation:

* - Corresponding Author

[1] A.I. Tselikov, A.D. Tomlenov, V.I. Ziuzin, Theory of rolling, Metallurgy, Moscow, (1982).

[2] Iu.V. Konovalov, Reference book of roller. Reference book in 2 books. Book 1. Production of hot-rolled sheets and strips, Teplotekhnik, Moscow, (2008).

[3] M.M. Safian, V.L. Mazur, A.M. Safian, A.I. Molchanov, Technology of rolling and drawing processes, Sheet-rolling production, Vyshcha shkola, (1988).

[4] A.P. Grudev, L.F. Mashkin, M.I. Khanin, Technology of rolling production, Metallurgy, Moscow, (1994).

[5] V.M. Salganik, I.G. Gun, A.S. Karandaev, A.A. Radionov, Thin slab casting and rolling units for production of steel strips, BMSTU, Moscow, (2003).

[6] S.L. Kotsar, A.D. Belianskii, Iu.A. Mukhin, Sheer rolling production technology, Metallurgy, Moscow, (1997).

[7] B.A. Dubrovskii, B.A. Nikiforov, L.V. Radionova, Investigation of the influence of hot rolling process parameters on the structure of low-carbon and low-alloy steel grades, Production mill product. 10 (2006) 13-16.

[8] V.V. Kurban, D.S. Fedorov, V.M. Salganik, A.M. Pesin, Choice of strategy and cooling modes of rolled products to achieve the required set of consumer properties, Ferrous metallurgy. 4 (2011) 64-69.

[9] M.A. Zaikov, V.P. Polukhin, A.M. Zaikov, L.N. Smirnov, Rolling process, MISIS, Moscow, (2004).

[10] I.A. Serdiuk, A.S. Khadzhinov, S.G. Dvornikov, A.A. Kholodnyi, A.G. Prisiazhnyi, Mathematical model of calculating the temperature of rolling in the process of hot sheet rolling by the method of criterial equations, Bulletin of the Pryazovskyi State Technical University. Series of «Technical Sciences», PSTU, Mariupol. 2(23) (2011).

[11] A.A. Radionov, A.S. Karandaev, I. Iu. Andriushin, etc., Mathematical modeling of interconnected electromechanical systems of a continuous subgroup of rolling mill stands. Part 1. Development of mathematical model, Bulletin of the SUSU. Power Engineering. 15(1) (2015).

[12] A.S. Karandaev, V.R. Khramshin, A.A. Radionov, etc., Matching speed modes electric drives continuous rolling mill group, Vestnik of Ivanovo State Power Engineering University, (2013) 98-103.

[13] A.A. Radionov, I. Iu. Andriushin, V.V. Galkin, A.N. Gostev, Limitation of the minimum speeds of electric drives of the mill 2000 when rolling a pipe blank, Bulletin of the NMSTU. 3 (2011) 20-23.

[14] M.A. Sodedkova, F.S. Dubinsky, T.A. Lisovskaya, Use of temperature models to enhance the processes of grade sheet rolling, Innovations in Metal Works and Mechanical Engineering, Ural University Publishing House, Yekaterinburg, 341-343.

[15] A.R. Gareev, S.A. Murikov, S.I. Platov etc., The heat balance of the rolling stock on a broadband hot rolling mill, Modeling and development of metal forming processes, NMSTU, Magnitogorsk, 20 (2014) 250-258.

[16] Information on https: /nauchforum. ru/archive/MNF_tech/4(4). pdf.

[17] L.V. Radionova, R.A. Lisovskii, T.A. Lisovskaia, Computer simulator Cold rolling of sheet steel,: Mathematical modeling of the process and 3D visualization of equipment, Russian Internet Journal of Industrial Engineering. 4(1) (2016) 29-39.

DOI: 10.24892/rijie/20160206

[18] F.S. Dubinskii, M.A. Sosedkova, P.A. Maltsev, Educational-research simulator of the processes of long rolling, Bulletin of the SUSU, Metallurgy. 15(2) (2015) 120-125.

[19] L.V. Radionova, I.O. Bystrykh, The use of a computer simulation for studying the process of wire drawing, Bulletin of Scientific Conferences UCOM. (2015) 137-139.