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90th anniversary of Nosov Magnitogorsk State Technical University
ArticleName Study of processes of formation of the structure and properties of roll steels with the aim of creating their new compositions
DOI 10.17580/chm.2024.03.05
ArticleAuthor V. M. Kolokoltsev, N. A. Feoktistov, A. S. Savinov, E. V. Skripkin
ArticleAuthorData

Nosov Magnitogorsk State Technical University, Magnitogorsk, Russia
V. M. Kolokoltsev, Dr. Eng., Prof., Advisor to the Rector’s Office, e-mail: kwm@magtu.ru
N. A. Feoktistov, Cand. Eng., Associate Prof., Head of the Dept. of Foundry Processes and Materials Science, e-mail: fna87@mail.ru
A. S. Savinov, Dr. Eng., Associate Prof., Director of the Institute of Metallurgy, Mechanical Engineering and Materials Processing, e-mail: savinov_nis@mail.ru
E. V. Skripkin, Postgraduate Student, Dept. of Foundry Processes and Materials Science, e-mail: skripkin.ev@mzpv.mmk.ru

Abstract

The article presents the research results of experimental steel for sHSS mill roll working layer. The issue of structure and properties controlling for the developed alloy by heat treatment is considered. In crystallization process of a cast billet, a martensitic structure is formed, in which a carbide phase of a certain composition is separated. Moreover, there is a certain amount of residual austenite, which can lead to the product damage while it is in operation in the stands of hot rolling mills. Heat treatment in the form of homogenization and subsequent tempering leads to a change of qualitative and quantitative characteristics of the microstructure, thereby changing the properties of a mill roll working layer, affecting wear resistance. The research results showed that the heat treatment of experimental steel has an effect on the grain size, the amount of carbide phase, and residual austenite. The issue of complex microstructure transformation in the process of heating steel during heat treatment is considered and the temperature ranges of martensite decomposition, the austenitic phase formation and dissolution of carbides in solid solution are determined. Metallographically, the volume fraction of the carbide phase that remains undissolved in austenite has been determined, as well as the effect of the homogenization temperature on this process has been established. In addition, the data on the effect of the homogenization temperature on the process of the grain solid solution transformation during heat treatment are presented. The article also examines a correlation between the quantitative characteristics of the carbide phase and the properties of experimental steel. The established results allow controlling the process of structure formation through heat treatment, as well as influence on the product performance.
The work was carried out within the framework of the project "Advanced production technologies and materials", project No. 2022-26.

keywords Mill roll, working layer, hardness, wear resistance, martensite, grain, heat treatment
References

1. Gulakov A. A., Tukhvatulin I. Kh., Potapov M. G. et al. Experience in the production of centrifugally cast sheet rolls for hot rolling mills in the conditions of JSC Kushva Roll Plant. Chernaya metallurgiya. Byulleten nauchno-tekhnicheskoy i ekonomicheskoy informatsii. 2018. No. 5. pp. 75–82.
2. Schaefer M., Wahrburg J., Roth H. State estimation of material flow rate in a hot rolling mill for steel bars. IFAC-Papers OnLine. 2020. Vol. 53, Iss. 2. pp. 12044–12049. DOI: j.ifacol.2020.12.742
3. Shinde G., Raut L. An optimal design approach for adamite hot rolling mill roll. International Journal of Advance Engineering and Research Development. 2015. Vol. 2, Iss. 2. pp. 161–169.
4. Aigner M., Pellizzari M., Domitner J., Elizondo L. et al. Influence of microstructure on degradation of cast graphitic high-speed steel. Wear. 2023. Vol. 522. pp. 78–91.
5. Shalaevsky D. L. Determination of wear on surfaces of work roll barrels in a continuous finishing group of stands of a wide strip hot rolling mill. Chernaya metallurgiya. Byulleten nauchnotekhnicheskoy i ekonomicheskoy informatsii. 2022. Vol. 78. No. 12. pp. 1054–1059. DOI: 10.32339/0135-5910-2022-12-1054-1059
6. Deng G. Y., Zhu H. T., Tieu A. K., Su L. H. et al. Theoretical and experimental investigation of thermal and oxidation behaviors of a high speed steel work roll during hot rolling. International Journal of Mechanical Sciences. 2017. Vol. 131-132. pp. 811–826.
7. Tripathy S., Kumar Sahu V., Manoranjan Jena P. S., Tarafder S. et al. On the importance of local equilibria in alloy design criteria for bulk nano-pearlitic steels and ensuing mechanical properties. Materials Science and Engineering: A. 2022. Vol. 841. pp. 134–143.
8. Feoktistov N. A., Chernov V. P., Savinov A. S. et al. Assessment of the influence of carbon on the performance properties and microstructure of roll steel. Izvestiya Volgogradskogo gosudarstvennogo tekhnicheskogo universiteta. 2021. No. 7 (254). pp. 35–40. DOI: 10.35211/1990-5297-2021-7-254-35-40
9. Feoktistov N. A., Vdovin K. N., Savinov A. S., Skripkin E. V. Study of the process of formation of the cast structure of roll steel. Izvestiya Volgogradskogo gosudarstvennogo tekhnicheskogo universiteta. 2020. No. 7(242). pp. 36–40. DOI: 10.35211/1990-5297-2020-7-242-36-40
10. Kochkovskaya S. S. Application of a software package for calculating and monitoring quality indicators of roll steels and alloys. Mekhatronika, avtomatkia i robototekhnika. 2019. No. 3. pp. 82–84. DOI: 10.26160/2541-8637-2019-3-82-84
11. Filippov M. A., Khadyev M. S., Kudryashova N. N. et al. The role of metastable austenite in increasing the abrasive wear resistance of pearlitic steel 150KhNML. Stal. 2021. No. 8. pp. 44–49.
12. Morozov S. O., Glebova M. A., Potapova A. A., Nikiforova S. M. Increasing the abrasive wear resistance of tool steels by high-temperature hardening. Ural School of Young Metallurgists: collection of materials from the XX International Scientific and Technical Ural School-Seminar of Metallurgists-Young Scientists, Yekaterinburg, February 03–07, 2020. Yekaterinburg : Ural Federal University named after the first President of Russia B. N. Yeltsin. 2020. pp. 182–185.
13. Sourmail T., Caballero F. G., Moudian F., De Castro D. et al. High hardness and retained austenite stability in Si-bearing hypereutectoid steel through new heat treatment design principles. Materials & Design. 2018. Vol. 142. pp. 279–287.
14. GOST 5639–82. Steels and alloys. Methods for detection and determination of grain size. Introduced: 01.01.1983.
15. GOST 9013–59. Metals. Method of measuring Rockwell hardness. Introduced: 01.01.1969.
16. GOST 23.208–79. Wear resistance testing of materials by friction against loosely fixed abrasive particles. Introduced: 01.03.1981.
17. Kolokoltsev V. M., Feoktistov N. A., Savinov A. S., Skripkin E. V. Development of new composition for sHSS steel used for hot rolling mill rolls at Magnitogorsk Iron and Steel Works. CIS Iron and Steel Review. 2022. Vol. 22. pp. 24–27.

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