Journals →  Non-ferrous Metals →  2024 →  #2 →  Back

LIGHT METALS, CARBON MATERIALS
ArticleName Influence of temperature regime of the combined process of casting and rolling of strips from high-alloy aluminium alloys
DOI 10.17580/nfm.2024.02.07
ArticleAuthor Bazhin V. Yu., Tran Duc Hieu, Makushin D. V., Krylov K. A.
ArticleAuthorData

Empress Catherine II Saint Petersburg Mining University, Saint Petersburg, Russia

V. Yu. Bazhin, Doctor of Technical Sciences, Professor, Head of the Department of Metallurgy, e-mail: bazhin-alfoil@mail.ru
Tran Duc Hieu, Post-Graduate Student of the Department of Automation of Technological Processes and Productions, e-mail: s233199@stud.spmi.ru
K. A. Krylov, Candidate of Technical Sciences, Assistant Professor of the Department of Automation of Technological Processes and Productions


Urbantech Engineering LLC, Moscow, Russia

D. V. Makushin, Candidate of Technical Sciences, Deputy CEO

Abstract

In aluminum foil production, challenges arise in the real-time monitoring and control of technological parameters and temperature control during casting and rolling, leading to significant raw material and energy losses. Malfunctions and disruptions in the thermal conditions of the caster-roller cause a reduction in continuous casting billet quality. This paper proposes elements of a specialized system for data analysis and process monitoring of continuous casting for high-strength aluminum alloys grades 8011 and 8006, presented as a universal architecture of the industrial process based on the thermal field modeling of caster-rollers. Existing automated control systems for continuous casting of aluminum strips either lack the appropriate software or rely heavily on imported solutions. This study lays the groundwork for developing an automated control system for the continuous casting. Initial matrices were obtained to build a mathematical model of strip deformation in the “metal-roller” contact zone and the “bushingroller” zone, based on the thermal field data for caster-rollers during the casting and rolling of aluminum alloys 8011 and 8006. The research results and proposed approaches will be beneficial for practical applications in industry and for use in other secondary metallurgy processes, including aluminum foil production in Vietnam.

keywords Aluminum foil, continuous casting-direct rolling process, twin-roll casting, parameter control, temperature field, casting and rolling
References

1. Litvinenko V. S., Petrov E. I., Vasilevskaya D. V., Yakovenko A. V., Naumov I. A., Ratnikov M. A. Assessment of the Role of the State in the Management of Mineral Resources. Journal of Mining Institute. 2023. Vol. 259. pp. 95–111.
2. Nguyen M. P., Ponomarenko T., Nguyen N. Energy Transition in Vietnam: A Strategic Analysis and Forecast. Sustainability. 2024. Vol. 16, Iss. 5. 1969.
3. Litvinenko V., Bowbriсk I., Naumov I., Zaitseva Z. Global Guidelines and Requirements for Professional Competencies of Natural Resource Extraction Engineers: Implications for ESG Principles and Sustainable Development Goals. Journal of Cleaner Production. 2022. Vol. 338. 130530.
4. Kinzyaulatova G. I., Elkina L. G. Ensuring Balanced Development of Innovation and Investment Processes in the Russian Federation. CITISE. 2022. Vol. 31, Iss. 1. pp. 91–107.
5. Safiullin R. N., Afanasyev A. S., Reznychenko V. V. The Concept of Development of Monitoring and Control Systems for Intelligent Technical Complexes. Journal of Mining Institute. 2019. Vol. 237. pp. 322–330.
6. Aramja A., Kamach Q., Elmeziane R. Companies’ Perception Toward Manufacturing Execution Systems. International Journal of Electrical and Computer Engineering (IJECE). 2021. Vol. 11, Iss. 4. pp. 3347–3355.
7. Shestakov A. K., Sadykov R. M., Petrov P. A. Multifunctional Crust Breaker for Automatic Alumina Feeding System of Aluminum Reduction Cell. E3S Web of Conferences. 2021. Vol. 266. 09002.
8. Dmitrieva V. V., Avkhadiev I. F., Sizin P. E. Application of Modern Software and Hardware Complexes for Automation of Conveyor Lines. Mining Informational and Analytical Bulletin. 2021. No. 2. pp. 150–163.
9. Ugolnikov A. V., Makarov N. V. Application of Automation Systems for Monitoring and Energy Efficiency Accounting Indicators of Mining Enterprises Compressor Facility Operation. Journal of Mining Institute. 2019. Vol. 236. pp. 245–248.
10. Opalev S. A., Alekseeva S. A. Methodological Substan tiation of the Choice for Optimal Modes of Equipment Operation During the Stage-Wise Concentrate Removal in Iron Ores Bene ficiation. Journal of Mining Institute. 2022. Vol. 256. pp. 593–602.
11. Zabaykin Yu. V., Anisimov P. F., Zaernyuk V. M., Lyutyagin D. V., Davshan A. S. Reproduction of the Russian Mineral Resource Base: Trends and Development Prospects. Moscow: National Research, 2020. 340 p.
12. Nazarova Z. M., Kosyanov V. A., Zabaykin Y. V., Kulikov V. V., Zaernyuk V. M., Goldman E. L., Kharlamov M. F., Yashin V. P., Yashina V. I. Economic Prerequisites and Prospects for the Reproduction of the Russian Mineral Resource Base. Moscow: National Research, 2020. 388 p.
13. Leonova M. S., Timofeeva S. S. Environmental and Economic Damage from the Dust Waste Formation in the Silicon Production. IOP Conference Series Earth and Environmental Science. 2019. Vol. 229. 012022.
14. Yolkin K. S., Yolkin D. K., Kolosov A. D., Shtay ger M. G. Technologies, which Allow to Reduce an Impact of Metal Silicon Production on the Environment. IOP Conference Series Materials Science and Engineering. 2018. Vol. 411, Iss. 1. 012028.
15. Oksengoyt E. A., Kunitsky N. A., Petrov P. A., Shestakov A. K. Modern Equipment by Soyuztsvetmetavtomatika for Detecting Aerosols and Spills of Harmful Pollutants. Tsvetnye Metally. 2023. No. 4. pp. 61–65.
16. Bazhin V. Yu., Masko O. N., Nguyen Huy H. Increasing the Speed of Information Transfer and Operational Decision-Making in Metallurgical Industry Through an Industrial Bot. Non-ferrous Metals. 2023. No. 1. pp. 62–67.
17. Sverguzova S. V., Sapronova Z. A., Zubkova O. S., Svyatchenko A. V., Shaikhieva K. I., Voronina Y. S. Electric Steelmaking Dust as a Raw Material for Coagulant Production. Journal of Mining Institute. 2023. Vol. 260. pp. 279–288.

18. Shestakov A. K., Petrov P. A., Nikolaev M. Yu. Automatic System for Detecting Visible Emissions in a Potroom of Aluminum Plant Based on Technical Vision and a Neural Network. Metallurgist. 2023. Vol. 66. pp. 1308–1319.
19. Anufriev A. S., Lebedik E. A., Smirnov A. A. Automated Ball Charge Control System for Grinding Units. Obogashchenie Rud. 2024. No. 1. pp. 3–9.
20. Rozs R., Ando M. Collaborative Systems, Operation and Task of the Manufacturing Execution Systems in the 21st Century Industry. Periodica Polytechnica Mechanical Engineering. 2020. Vol. 64, Iss. 1. pp. 51–66.
21. Kulchitskiy A. A., Mansurova O. K., Nikolaev M. Yu. Recognition of Defects in Hoisting Ropes of Metallurgical Equipment by an Optical Method Using Neural Networks. Chernye Metally. 2023. No. 3. pp. 81–88.
22. Makarov S. S., Alies M. Yu. Mathematical Model and Numerical Simulation of Conjugate Heat Transfer During Cooling of a High-Temperature Metal Body by a Gas-Liquid Medium Flow. Chemical Physics and Mesoscopy. 2022. Vol. 24, Iss. 3. pp. 287–295.
23. Zvyagina E. Y., Ogarkov N. N., Polyakova M. A., Sukhova M. D. Estimation of Depth and Degree of Mill Roll Surface Hardening During Grit Texturing. Izvestiya. Ferrous Metallurgy. 2020. Vol. 63, Iss. 9. pp. 735–741.
24. Antsupov A. V. (Jr.), Antsupov A. V., Antsupov V. P., Ryskina E. S. Methodology of Theoretical Assessment of Durability and Reliability of Operation of Rolls of Four-High Stands by Modeling Their Contact Interaction with Strips. Bulletin of Nosov Magnitogorsk State Technical University. 2023. Vol. 21, Iss. 3. pp. 97–113.
25. Negri E., Berardi S., Fumagalli L., Macchi M. MESIntegrated Digital Twin Frameworks. Journal of Manufacturing Systems. 2020. Vol. 56, Iss. 6. pp. 58–71.
26. Vertyanov D. V., Korobova N. E., Pogudkin A. V., Kravtsova V. D. Physical and Technological Characteristic Features of The Process of Installation of Dies Onto A Temporary Foundation in Internal Wiring Technology. Journal of Technical Physics. 2020. Vol. 90. pp. 1750–1757.
27. Ojeda Pardo F. R., Sánchez Figueredo R. P., Belette Fuentes O., Quiroz Cabascango V. E., Mosquera Urbano A. P. Metallographic Properties Evaluation of the Specimens Obtained by the Vibratory Method (Cast Iron ISO 400-12). Journal of Physics Conference Series. 2022. Vol. 2388, Iss. 1. 012058.
28. Zakirova G., Pshenin V., Tashbulatov R., Rozanova L. Modern Bitumen Oil Mixture Models in Ashalchinsky Field with Low-Viscosity Solvent at Various Temperatures and SolventCo ncentrations. Energies. 2023. Vol. 16, Iss. 1. 395.
29. Chernyshov E. A., Baev I. V., Romanov A. D. Mechanical Properties and Structure of Castings at Different Ladle Processing of Liquid and Crystalizing Steel. Izvestiya. Ferrous Metallurgy. 2020. Vol. 63. pp. 644–650.
30. Kushchenko A. N., Syrkov A. G., Ngo Q.K. Inorganic Synthesis of Hghly Hydrophobic Metals Containing Surface Compounds with Electron Acceptor Modifiers: Process Features. Tsvetnye Metally. 2023. No. 8. pp. 62–72.
31. Pham Q. T., Syrkov A. G., Silivanov M. O., Ngo Q. K. Preparation of zinc nanooxide and its application for antibacterial coatings. Tsvetnye Metally. 2023. No. 9. pp. 51–56.
32. Kazyaev M. D., Samoilovich Yu. A., Kazyaev D. M., Vokhmyakov A. M., Spitchenko D. I. Study of the Temperature Field in Work Rolls of Cold Rolling Mills During Rapid Heating in a Chamber Furnace. Modern Scientific Achievements in Metallurgical Heat Engineering and Their Industrial Implementation: Proceedings of the 2nd International Scientific-Practical Conference (Ekaterinburg, September 18–21, 2017). Ekaterinburg: UrFU, 2018. pp. 77–85
33. Podkustov V. P., Alekseev P. L. Mathematical Model of the Thermal Regime of Rolling. Collection of Scientific Papers. Moscow: MISIS, 1998. pp. 45–49
34. Akinlabi E. T., Dats E. P., Mahamood R. M., Murashkin E. V., Shatalov M. Y. On a Method of Temperature Stresses Computation in a Functionally Graded Elastoplastic Material. Mechanics of Solids. 2020. Vol. 55, Iss. 6. pp. 800–807.
35. Ospanova T. T., Sharipbaev A. A., Niyazova R. S. Algorithm of Numeral Modelling of Distribution of Temperature Field in Rolling Mill. Fundamental Research. 2015. No. 10-1. pp. 56–62.
36. Young Gun Ko. Microstructure Evolution and Mechanical Rroperties of Severely Deformed Al Alloy Processed by Differential Speed Rolling. Journal of Alloys and Compounds. 2012. Vol. 536. Suppl. 1. pp. S122–S125.
37. Elagin V. I. Ways of Developing High-Strength and High-Temperature Structural Aluminum Alloys in the 21st Century. Metal Science and Heat Treatment. 2007. Vol. 49. pp. 427–434.

Full content Influence of temperature regime of the combined process of casting and rolling of strips from high-alloy aluminium alloys
Back