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Influence of Pulling Modes and Temperature of Coiling Cold-Rolled Strips

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Abstract

The formative patterns of gaps between turns of cold-rolled strips in rolls and the ways these gaps affect the stress-and-strain state (SSS) of these rolls are disclosed. The effects of surface roughness, temperature, physical mechanical properties, strain degree, and hardening of cold-rolled steel on the interturn gaps in and the roll’s SSS are analyzed in detail. Possibilities of affecting the roll’s SSS by adjusting the cold-rolling temperature of fine strips and tinplate are exposed. Recommendations on choosing thermal-speed modes of strip rolling and coiling are presented.

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REFERENCES

  1. Mazur, V.L. and Nogovitsyn, A.V., Theory and Technology of Sheet Rolling. Numerical Analysis and Applications, Boca Raton, FL: CRC Press, 2019.

    Google Scholar 

  2. Mazur, V.L. and Timoshenko, V.I., Stress-deformation state of cold-rolled coils, Part 1, Izv. Vyssh. Uchebn. Zaved., Chern. Metall., 1979, no. 4, pp. 55–59.

  3. Mazur, V.L. and Timoshenko, V.I., Stress-deformation state of cold-rolled coils, Part 2, Izv. Vyssh. Uchebn. Zaved., Chern. Metall., 1979, no. 6, pp. 52–55.

  4. Mazur, V.L. and Timoshenko, V.I., Calculation of the stress state of coiled cylinders, Mekh. Kompoz. Mater., 1982, no. 5, pp. 880–886.

  5. Mazur, V.L., The mode of winding of coils of the hot and cold steel strips, Stal’, 1980, no. 7, pp. 591–595.

  6. Mazur, V.L., Timoshenko, V.I., and Prikhod’ko, I.Yu., Regulating the coil stress by adjusting the rigidity of the winding drum, Steel Transl., 2018, vol. 48, no. 8, pp. 528–535.

    Article  Google Scholar 

  7. Mazur, V.L., Timoshenko, V.I., and Prikhod’ko, I.Yu., Stability loss and defects in coils of cold-rolled strip, Steel Transl., 2019, vol. 49, no. 1, pp. 58–65.

    Article  Google Scholar 

  8. Mazur, V.L., Timoshenko, V.I., and Prikhod’ko, I.Yu., Efficient cold rolling and coiling modes, Steel Transl., 2019, vol. 49, no. 8, pp. 548–558.

    Article  Google Scholar 

  9. Prikhod’ko, I.Yu., Timoshenko, V.I., Chernov, P.P., et al., The influence of the rough surface of cold-rolled strips on the conditions of cohesion of coil turns during annealing and the formation of surface defects, Metall. Gornorudn. Prom-st’, 2002, nos. 8–9, pp. 92–101.

  10. Chernov, P.P., Prikhod’ko, I.Yu., Skorokhodov, V.N., et al., The influence of the temperature of coiling strips into coils during cold rolling on the formation of surface defects of strips, Metall. Gornorudn. Prom-st’., 2002, nos. 8–9, pp. 101–108.

  11. Prikhod’ko, I.Yu., Chernov, P.P., Timoshenko, V.I., and Akishin, V.V., The influence of modes of coiling and annealing of strips on the adhesion and welding of coil turns, Trudy pyatogo kongressa prokatchikov, g. Cherepovets, 21–24 oktyabrya 2003 g. (Proc. Fifth Congr. of Rolling Mill Workers, Cherepovets, October 21–24, 2003), Moscow: Chermetinformatsiya, 2004, pp. 152–155.

  12. Mazur, V.L., Proizvodstvo lista s vysokokachestvennoi poverkhnost’yu (Production of Sheet with High Surface Quality), Kiev: Tekhnika, 1982.

  13. Solov’ev, P.I., Dunaevskii, V.I., and Dornostup, V.S., Analysis of coiling drums of cold rolling mills, Tr. Vseross. Nauchno-Issled. Proektn.-Konstr. Inst. Metall. Mashinostr., 1962, no. 6, pp. 54–58.

  14. Berenov, A.D., Khimich, G.L., and Tsalyuk, M.B., Stress state and stability of multilayer anisotropic cylinders, Vestn. Mashinostr., 1971, no. 10, pp. 29–31.

  15. Zapara, B.M., Determination of pressure on the reel drum taking into account the anisotropic properties of the coil and their changes during the winding, Tr. Vseross. Nauchno-Issled. Proektn.-Konstr. Inst. Metall. Mashinostr., 1972, no. 30, pp. 154–164.

  16. Wilkening, H., Betrachtungen zum Standvermögen gewickelter Bandringe, Steel Res. Int., 1973, vol. 44, no. 7, pp. 513–520.

    Google Scholar 

  17. Yuen, W.Y.D. and Cozijnsen, M., Optimum tension profiles to prevent coil collapses, SEAISI Q., 2000, vol. 29.3, pp. 50–59.

    Google Scholar 

  18. Mazur, V.L., Preventing surface defects in the uncoiling of thin steel sheet, Steel Transl., 2015, vol. 45, no. 12, pp. 959–966.

    Article  Google Scholar 

  19. Mazur, V.L. and Pargamonov, E.A., Formation and prevention of flexure defects at the surface of cold-rolled steel strip, Steel Transl., 2016, vol. 46, no. 8, pp. 595–601.

    Article  Google Scholar 

  20. Mazur, V.L. and Pargamonov, E.A., Preventing “fracture” defects of cold-rolled steel, Metall. Gornorudn. Prom-st’, 2015, no. 6, pp. 39–47.

  21. Anderssen, B., Fowkes, N., Hickkson, R., and McGuinness, M., Analysis of coil slumping, in Proceedings of the 2009 Mathematics and Statistics in Industry Study Group, Wollongong, NSW: Univ. of Wollongong, 2010, vol. 1, pp. 90–108.

  22. Li, S. and Cao, J., A hybrid approach for quantifying the winding process and material effects on sheet coil deformation, J. Eng. Mater. Technol., 2004, vol. 126, pp. 303–313.

    Article  Google Scholar 

  23. Wadsley, A.W. and Edwards, W.J., Coil winding stresses, J. Austr. Inst. Met., 1977, vol. 22, no. 1, pp. 17–27.

    Google Scholar 

  24. Mazur, V.L. and Timoshenko, V.I., Teoriya i tekhnologiya prokatki (gidrodinamicheskie effekty smazki i mikrorel’ef poverkhnosti) (Theory and Technology of Rolling: Hydrodynamic Effect of Lubrication and Surface Microrelief), Kyiv: ADEF-Ukraina, 2018.

  25. Pimenov, A.F., Soskovets, O.N., Traino, A.I., et al., Kholodnaya prokata i otdelka zhesti (Cold Rolling and Finishing of Tinplate), Moscow: Metallurgiya, 1990.

  26. Edwards, W.J. and Boulton, G.J., The science of coil winding, AISE Steel Technol., 2001, nos. 11–12, pp. 24–33.

  27. Belov, V.K., Profili poverkhnosti: monografiya (Surface Profiles: Monograph), Magnitogorsk: Magnitogorsk. Gos. Tekh. Univ. im. G.I. Nosova, 2007.

  28. Nuri, K.A. and Halling, J., The normal approach between flat surfaces in contact, Wear, 1975, vol. 32, no. 1, pp. 81–93.

    Article  Google Scholar 

  29. Weisz-Patrault, D., Ehrlacher, A., and Legrand, N., Non-linear simulation of coiling accounting for roughness of contacts and multiplicative elastic-plastic behavior, Int. J. Solids Struct., 2016, vols. 94–95, pp. 1–20.

    Article  Google Scholar 

  30. Chernov, P.P., Meleshko, V.I., Mazur, V.L., and Vinogradov, V.I., Experimental determination of interturn pressures in steel strip rolls, Stal’, 1982, no. 7, pp. 46–47.

  31. Tret’yakov, A.V. and Zyuzin, V.I., Mekhanicheskie svoistva metallov i splavov pri obrabotke metallov davleniem (Mechanical Properties of Metals and Alloys during Metal Pressuring), Moscow: Metallurgiya, 1973.

  32. Prikhod’ko, I.Yu., Skorokhodov, V.N., Nastich, V.P., et al., RF Patent 2236917, Byull. Izobret., 2004, no. 27.

  33. Demkin, N.B., Alekseev, V.M., and Kirshin, N.N., Influence of microgeometry and contact time on the thermal conductivity of a contact, in Metrologicheskie i tekhnologicheskie issledovaniya kachestva poverkhnosti (Metrological and Technological Studies of Surface Quality), Riga: Zinatne, 1976, pp. 64–72.

  34. Prikhod’ko, I.Yu., Development and implementation of technology, calculation, and control of production parameters of cold-rolled strips with high flatness and high-quality surface, Extended Abstract of Doctoral (Eng.) Dissertation, Donetsk, 2010. http://www.metaltehnomash.com.ua/PDFFiles/AbstractDissPryhodko.pdf.

  35. Lin, P.M. and Wickert, J.A., Analysis of core buckling defects in sheet metal coil processing, J. Manuf. Sci. Eng., 2003, vol. 125, pp. 771–777.

    Article  Google Scholar 

  36. Wang, Y., Li, L., Yan, X., et al., Modeling of stress distribution during strip coiling process, J. Iron Steel Res. Int., 2012, vol. 19, no. 8, pp. 6–11.

    Article  Google Scholar 

  37. Belskii, S.M. and Shopin, I.I., Stress–strain state of coiled steel, Steel Transl., 2017, vol. 47, no. 11, pp. 722–727.

    Article  Google Scholar 

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Authors and Affiliations

  1. Physico-Technological Institute of Metals and Alloys, National Academy of Science of Ukraine, 03680, Kyiv, Ukraine

    V. L. Mazur

  2. Nekrasov Iron and Steel Institute, National Academy of Sciences of Ukraine, 49107, Dnipro, Ukraine

    I. Yu. Prikhod’ko

Authors
  1. V. L. Mazur
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  2. I. Yu. Prikhod’ko
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Correspondence to V. L. Mazur.

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Translated by S. Kuznetsov

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Mazur, V.L., Prikhod’ko, I.Y. Influence of Pulling Modes and Temperature of Coiling Cold-Rolled Strips. Steel Transl. 50, 618–628 (2020). https://doi.org/10.3103/S0967091220090090

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  • DOI: https://doi.org/10.3103/S0967091220090090

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