ISSN (print) 1995-2732
ISSN (online) 2412-9003

 

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Abstract

Problem Statement (Relevance): One of the crucial challenges facing Russian iron-and-steel industry today includes the introduction of technologies that will enhance the efficiency of existing operations, make the products more competitive and help develop the production capacity for advanced rolled steel products. Due to the need to quickly find and implement solutions for the above, it is important to identify and adopt techniques that will help find a comprehensive solution in the shortest time and with a high degree of reliability. Objectives: This article describes the results of the research that seeked to develop methods that would help create operating rolling schedules, create and enhance mathematical modeling tools and provide an enhanced tool for assessing the efficiency of processes and operations involved in the production of steel sheets. The expected benefits of the above include an expanded product assortment, improved quality and reduced resource costs. Methods Applied: The methods applied included systems theory, mathematical modeling and computer simulation; statistical methods of analysis and quality control; observation carried out at a number of rolling facilities; production of pilot lots. Originality: The results of the research include a genetic algorithm and a method for computer-aided design of rolling schedules. Mathematical models were developed for various hot and cold rolling mills producing steel sheets and strips meant for different applications. The method of building accommodation models was developed and applied for creating mathware components. To improve the reliability and objectivity of the conclusions the method of analyzing the compliance of the process and product quality was recommended and adjusted. Practical Relevance: The genetic algorithm of computer-aided design is implemented as CAD software for creating rolling schedules for different types of rolling mills. The above software, together with the compliance assessment method, helped come up with the solutions intended to improve the existing production process and adopt new types of flat products (for example, HSLA steel products).

Keywords

Flat products, technological system, production process, rolling schedule, genetic algorithm of computer-aided design for creating rolling schedules, model building, acommodation model, product quality, process performance, statistical estimation, plate rolling, the reduction mode of a hot wide-strip mill, hot-rolled flat products from HSLA steel.

Mikhail I. Rumyantsev – Ph.D. (Eng.), Professor

Nosov Magnitogorsk State Technical University, Magnitogorsk, Russia. Phone: +7(3519)-29-85-70. E-mail: This email address is being protected from spambots. You need JavaScript enabled to view it.; This email address is being protected from spambots. You need JavaScript enabled to view it.. ORCID: http://orcid.org/0000-0003-0608-0446

1. Ob utverzhenii Strategii razvitiya chernoj metallurgii Rossii na 2015-2020 gody i na perspektivu do 2030 goda i Strategii razvitiya cvetnoj metallurgii Rossii na 2015-2020 gody na perspektivu do 2030 goda [On approval of the Russian Iron and Steel Industry Development Strategy for 2014-2020 and for a longer term (up to 2030) and the Russian Non-Ferrous Industry Development Strategy for 2014-2020 years and for a longer term (up to 2030)]. Order by the Ministry of Industry and Trade of the Russian Federation, no. 839, dated May 5, 2014. Available at: http://www.garant.ru/products/ipo/prime/doc/70595824/ (Accessed: 02/05/2015).

2. GOST 14.004-83. Tekhnologia podgotovki proizvodstva. Terminy i opredeleniya osnovnykh ponyatij [State standart 14.004-83. Production engineering. Terms and definitions of basic concepts]. Moscow: Standartinform Publ., 2009. 9 p. (In Russ.)

3. Zajtsev V.S. Osnovy tekhnologicheskogo proektirovaniya prokatnikh tsehov [Fundamentals of rolling mill engineering]. Moscow: Metallurgiya, 1987. 336 p. (In Russ.)

4. Rashnikov V.F. Razvitie tekhnologicheskikh system na osnove kompleksnogo modelirovaniya dlya proizvodstva konkurentosposobnogo stalnogo prokata: avtoreferat dis. d-ra tekhn. nauk v forme nauchnogo doklada [Developing simulation based production systems for competitive steel products. Extended abstract of D.Sc. dissertation presented in the form of a scientific paper]. Magnitigorsk: MGMA, 1988. 56 p. (In Russ.)

5. Zaveryukha V.N. Razvitie i primenenie metodov issledovaniya i metodov uluchsheniya listovoj prokatki na osnove sistemnogo podkhoda: dis. d-ra tekhn. nauk [Development and application of research methods and techniques for improving steel sheets based on system approach. D.Sc. (Eng.) dissertation. Magnitogorsk, 1990. 442 p. (In Russ.)

6. Norenkov I.P. Vvedenie v avtomatizirovannoe proektirovanie tekhnicheskikh ustrojstv i system [Introduction into computer-aided design of technical devices and systems]. Moscow: Machinery, 1980. 312 p. (In Russ.)

7. Ditrikh J. Proektirovanie i konstruirovanie. Sistemnyj podhod [Design and engineering: system approach]. Moscow: Mir, 1981. 456 p. (In Russ.)

8. Rumyantsev M.I. Some experience in the development and application of computer-aided design for rolling schedules for hot and cold rolling mills of various types. Trudy devyatogo kongressa prokatchikov [Proceedings of the ninth Congress of Rolling Specialists], Cherepovets, 2013, vol. 2, pp. 43–54. (In Russ.)

9. Dimatteo A., Vannucci M. and Colla V. Prediction of Mean Flow Stress during Hot Strip Rolling Using Genetic Algorithms. ISIJ International, vol. 54 (2014), no. 1, pp. 171–178.

10. Erik Parteder, Klaus Zeman, Huiying Du, and Rainer Grill. Recalculation of Flow Stresses from Industrial Process Data for Heavy Plate Rolling Using a 2D Finite Element Model. Steel Research Iint. 83 (2012), no. 2, pp. 124–130.

11. Rumyantsev М., Belov V., Razgulin I. Prediction model of the flow stress for the computer-aided design hot rolling sheet and strips pattern. METAL 2015 Conference proceedings. Ostrava: TANGER Ltd, 2015, pp. 395–403.

12. Rumyantsev M.I. Accommodation models: Development and application for analyzing and improving sheet rolling processes. Actualnyie problemy sovremennoj nauki, tekhniki i obrazovaniya: materialy 71-j mezhregionalnoj nauchno-tekhnicheskoj konferencii [Important problems of contemporary science, technology and education]. Magnitogorsk: Nosov Magnitogorsk State Technical University. 2014, vol. 1, no. 1, pp. 153–156. (In Russ.)

13. Konovalov Yu.V., Ostapenko A.L., Ponomarev V.I. Raschet paramertrov listovoj prokatki [Sheet rolling parameters calculation]. Moscow: Metallurgiya, 1986. 430 p. (In Russ.)

14. Wusatowski Z. Fundamentals of Rolling. Pergamon Press Ltd., Printed in Poland. Katowice: «ŚLĄSK», 2012. 692 p.

15. Azgaldov G.G. Upravlenie kachestvom i kvalimetriya [Quality management and qualimetry]. Tomsk: Tomsk Polytechnic University, 2004. (In Russ.)

16. Oakland J. S. Statistical Process Control. Fifth Edition. Bodmin: MPG Books Limited. 2003. 445 p.

17. Gun G.S. Upravlenie kachestvom vysokotochnyh profilej [Quality management for precision steel sections]. Moscow: Metallurgiya, 1984. 152 p. (In Russ.)

18. Zhadan V.T., Manevich V.A. Using comprehensive quality criteria to improve the rolling process. Мoscow: Metallurgiya, 1989. 96 p. (In Russ.)

19. Korchunov A.G., Chukin M.V., Gun G.S., Polyakova M.A. Upravlenie kachestvom produkcii v tekhnologiyah metiznogo proizvodstva [Quality management in metalware production]. Мoscow: «Ruda i Metally» Publishing House, 2012. 164 p. (In Russ.)

20. Ganguly K. Improvement process for rolling mill through the dmaic six sigma approach. International Journal for Quality research. 2012, vol 6, no. 3, pp. 221–231.

21. Noskievichova D., Kucharczyk R. Effective application of statistical process control (SPC) on the lengthwisetonsure rolled plates process. Metalurgija. 2012, vol. 51, no. 1, pp. 81–84.

22. Noskievichova D., Woska B. Design of methodology for application of statistical control on short run processes in metallurgy. Metalurgija. 2014, vol. 53, no. 1, pp. 81–84.

23. Rumyantsev M.I., Tsepkin A.S., Oplachko T.V. A unified approach to the calculation of differential indices of rolled product quality. Vestnik Magnitogorskogo Gosudarstvennogo Tekhnicheskogo Universiteta im. G.I. Nosova [Vestnik of Nosov Magnitogorsk State Technical University]. 2007, no. 3, pp. 61–64. (In Russ.)

24. Montgomery D.C. Introduction to Statistical Quality Control. Sixth Edition. Jefferson City: John Wiley & Sons. Inc. 2009. 754 p.

25. Denisov S.V., Gorbunov A.V., Vetrenko A.G., Molostov M.A., Golubchik E.M., Shchurov G.V., Rumyantsev M.I. MMK practice of developing the manufacturing technology for hot-rolled microalloyed high strength steels for automotive and construction industries. Modelirovanie i razvitie protsessov obrabotki metallov davleniem [Simulation and development of metal forming processes]. Magnitogorsk: Nosov Magnitogorsk State Technical University, 2009, pp. 39–44.

26. Rumyantsev M.I., Galkin V.V., Gorbunov A.V., Vetrenko A.G., Molostov M.A., Popov A.O. Developing the production process and the rolling schedules for hot wide-strip mill producing high strength steels for automotive industry. Trudy vosmogo kongressa prokatchikov [Proceedings of the eighth Congress of Rolling Specialists]. Magnitogorsk, Oktober 11-15, 2010. Vol. 1. Magnitogorsk: Magnitogorsk Printing House, 2010, pp. 35–45. (In Russ.)

27. Rumyantsev M.I., Gorbunov A.V., Popov A.O., Vetrenko A.G., Molostov M.F. Development of hot rolling processes for various types of rolling mills producing steel strips for various applications. Certificate of State Registration for Computer Software. No. 2013612426 dated 27/02/2013. OBPBT. 2013. No. 1.

28. Mitasov V.S., Rumyantsev M.I., Gorbunov A.V. CR CAD. Svid. o gos. reg. prog. dlya EC [computer] [Certificate of State Registration for Computer Software]. No. 2013611300 dated 09/01/2013. OBPBT. 2013, no. 5, part 3, p. 982.

29. Salganik V.M., Rumyantsev M.I. Tekhnologia proizvodstva listovoj stali: uchebnoe posobie [Flat steel production process: Learner’s guide]. Moscow: FSUE STC «Informregistr», 2013. State Registration No. 0321304908.

30. Rumyantsev M.I., Ruchinskaya N.A. Statisticheskie metody dlya obrabotki i analiza chislovoj informatsii, kontrolya i upravlenya kachestvom produkcii: uchebnoe posobie [Statistical methods for numerical data processing and analysis and for product quality management: Learner’s guide]. Moscow: FSUE STC «Informregistr», 2013. State Registration No. 0321303451.

31. Rumyantsev M.I., Lokotunina N.M., Moller A.B. Obrabotka metallov davleniem i kharakteristiki kachestva produkcii: uchebnoe posobie [Metal forming and product quality characteristics: Learner’s guide]. Moscow: FSUE STC «Informregistr», 2013. State Registration No. 0321303454.