Chemical composition influence on element segregation and properties of steel strip manufactured by strip casting route

Authors

  • Y. G. Aftandiliants National University of Life and Environmental Sciences of Ukraine image/svg+xml

DOI:

https://doi.org/10.31548/machenergy2021.04.005

Keywords:

steel, chemical composition, segregation, properties, yield strength, tensile strength, cooling, strip casting.

Abstract

The article presents the results of the chemical composition influence on element segregation and properties of steel strip manufactured by strip casting route.

It is shown that in the transition from the slab production with a thickness of 220 mm to slabs with a thickness of 1.2 mm, the thickness of the segregated diffusion layer in the case of the continuous strip casting process is 4.1 - 12.4 times less than in the case of traditional continuous casting.

The carbon, nitrogen, copper, tin, phosphorus and sulfur segregation percentage in the continuous strip casting process is 1.7 - 5.1 times less than in traditional continuous casting.

A method is proposed for calculating the element segregation based on the equality of the segregation level in traditional and strip continuous casting.

It has been established that the content of elements in steels during two-roll continuous casting can be increased for impurities such as S, O, N, P, H from a minimum of 3 for P to a maximum of 497% for S. For residual elements such as Pb, Bi, Sn, Cu, Sb, Zn, As minimum increase from 1.1 for Zn to maximum 401% for Pb. The content of such alloying elements as B, Se, Al, Te, Ca, Mg, Ce, C, La, Nb, Ti, Mn, Ni, Si can be increased from a minimum of 1.1 for Si and Mn to a maximum of 675% for B.

The time and rate of cooling of a 20-ton coil of steel strip are calculated, which are, respectively, 13.7 hours and 0.0051 oC/s. Such cooling conditions create the prerequisites for the precipitation of chromium carbides and an increase in the tendency of steel to intergranular corrosion.

It was found that for eliminate this problem, it is necessary to increase the cooling time with water after rolling to a strip temperature from 300 to 400 oC.

References

Zhi-ling Peng, Chun-gui Zhou. (2014). Research on modeling of nonlinear vibration isolation system based on Bouc-Wen model. Defence Technology. 10. 371-374.

Semenov M. E., Meleshenko P. A., Solovyov A. M., Semenov A. M. (2015). Hysteretic nonlinearity in inverted pendulum problem. Springer Proceedings in Physics. 168. 463-507.

Bernyk I., Nazarenko I., Luhovskyi O. (2018). Effect of rheological properties of materials on their treatment with ultrasonic cavitation. Materials and technology. 4 (52). 465-468.

Veklich A., Tmenova T., Zazimko O., Trach V., Lopatko K., Titova L., Boretskij V., Aftandiliants Y., Lopatko S., Rogovskiy I. (2020). Regulation of biological processes with complexions of metals produced by underwater spark discharge. Springer Proceedings in Physics. Book series Nanomaterials and Nanocomposites, Nanostructure Surfaces and Their Applications. 247. 283-306.

Nazarenko I., Dedov O., Bernyk I., Rogovskii I., Bondarenko A., Zapryvoda A., Titova L. (2020). Study of stability of modes and parameters of motion of vibrating machines for technological purpose. Eastern-European Journal of Enterprise Technologies. 6 (7-108). 71-79. doi: 10.15587/1729-4061.2020.217747.

Hrynkiv A., Rogovskii I., Aulin V., Lysenko S., Titova L., Zagurskіy O., Kolosok I. (2020). Development of a system for determining the informativeness of the diagnosing parameters of the cylinder-piston group of the diesel engines in operation. Eastern-European Journal of Enterprise Technologies. 3(105). 19-29.

Tmenova T., Valensi F., Veklich A., Cressault Y., Boretskij V., Lopatko K., Aftandilyant Y. (2017). Etude d'un arc impulsionnel immergé à l’aide de deux dispositifs expérimentaux. Journal International de Technologie, de l’Innovation, de la Physique, de l’Energie et de l'Environnement. 3(1). 2428-8500. doi: 10.18145/jitipee.v3i1.159.

Loveikin V., Romasevych Y., Shymko L., Ohiienko M., Duczmal W., Potwora W., Titova L., Rogovskii I. (2020). Agrotronics and optimal control of cranes and hoisting machines: monograph. Opole: The Academy of Management and Administration in Opole. 164.

Boretskij V. F., Veklich A. N., Tmenova T. A., Cressault Y., Valensi F., Lopatko K. G., Aftandilyants Y. G. (2019). Plasma of underwater electric discharges with metal vapors. Problems of atomic science and technology. 1. Series: Plasma Physics (25). 127-130.

Nazarenko I., Mishchuk Y., Mishchuk D., Ruchynskyi M., Rogovskii I., Mikhailova L., Titova L., Berezovyi M., Shatrov R. (2021). Determiantion of energy characteristics of material destruction in the crushing chamber of the vibration crusher. Eastern-European Journal of Enterprise Technologies. 4(7(112). 41-49. https://doi.org/10.15587/1729-4061.2021.239292.

Aftandiliants Ye. G. (2021). Thickness influence on element segregation in continuously cast steel slabs. Machinery & Energetics. Journal of Rural Production Research. Kyiv. Ukraine. 12(2). 15-22. http://dx.doi.org/10.31548/machenergy2021.02.015.

Palamarchuk I., Rogogvskii I., Titova L., Omelyanov O. (2021). Experimental evaluation of energy parameters of volumetric vibroseparation of bulk feed from grain. Engineering for Rural Development. 20. 1761-1767. doi: 10.22616/ERDev.2021.20.TF386.

Rogovskii I. L., Titova L. L., Gumenyuk Yu. O., Nadtochiy O. V. (2021). Technological effectiveness of formation of planting furrow by working body of passive type of orchard planting machine. IOP Conference Series: Earth and Environmental Science. 839. 052055. doi:10.1088/1755-1315/839/5/052055.

Rogovskii I.L., Titova L.L., Trokhaniak V.I., Borak K.V., Lavrinenko O.T., Bannyi O.O. (2021). Research on a grain cultiseeder for subsoil-broadcast sowing. INMATEH. Agricultural Engineering. Bucharest. 63(1). 385-396. doi: 10.35633/INMATEH-63-39.

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Published

2022-01-16

Issue

No. 12(4) (2021)

Section

Статті

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