Название |
Further developments in simulation of metal forming processes |
Информация об авторе |
Nosov Magnitogorsk state technical university (Magnitogorsk, Russia):
M. I. Rumyantsev, Cand. Eng., Prof., Dept. of Material Processing, e-mail: mikhail.rumyantsev54@bk.ru O. N. Tulupov, Dr. Eng., Prof., Vice Rector for Research and Innovation, e-mail: o.tulupov@mail.ru |
Ключевые слова |
Mathematical model, relevance, effectiveness, large plates, plate mill, height of the deformation zone, stress state index, yield stress, rolling force |
Библиографический список |
1. Novikov A. M., Novikov D. А. Scientific research methodology. Moscow: Librokom. 2009. 280 p. 2. Larichev O. I. Objective models and subjective decisions. Мoscow: Nauka. 1987. 144 p. 3. Blyumin S. L., Shuykova I. A. Models and methods of decision making under uncertainty. Lipetsk: Lipetsk Institute for Ecology and Humanities. 2001. 138 p. 4. Polukhin V. P. Mathematical modelling and computer-aided design of sheet rolling mills. Мoscow: Metallurgiya. 1972. 512 p. 5. Ivanov K. M., Lyasnikov A. V., Novikov L. A., Yurgenson E. V. Mathematical modelling of forming processes. Saint Petersburg: Inventeks. 1997. 268 p. 6. Dukmasov V. G., Vydrin A. V. Mathematical models and rolling processes in high quality steel sections production. Chelyabinsk: Izdatelstvo Yuzhnouralskogo gosudarstvennogo universiteta. 2002. 215 p. 7. Kuznetsov L. A. Use of process computer for sheet rolling process optimisation. Moscow: Metallurgiya. 1988. 304 p. 8. Moller A. B., Zaitsev A. A., Tulupov O. N. Model of setting up a bar mill with a matrix description of shaping in passes of simple form. Steel in Translation. 1999. Vol. 29. No. 10. pр. 59–63. 9. Moller A. B., Tulupov O. N., Fedoseev S. A. Improvement of surface quality of rolled section steel for springs manufacturing. Journal of Chemical Technology and Metallurgy. 2017. Vol. 52. No. 4. pр. 647–654. 10. Rubin G. S., Chukin M. V., Gun G. S., Polyakova M. A. Analysis of the properties and functions of metal components. Steel in Translation. 2016. Vol. 46. No. 10. pp. 701–704. 11. Chukin M. V., Poletskov P. P., Nabatchikov D. G., Gushchina M. S., Alekseev D. Yu., Khakimullin K. Mechanical properties as a function of the chemical composition and heat treatment regimes in high strength sheet steel. Vestnik Magnitogorskogo gosudarstvennogo tekhnicheskogo universiteta im. G. I. Nosova. 2016. Vol. 14. No. 4. pp. 72–75. 12. Kern A., Walter P., Pfeiffer E., Tchersikh Kh.-Y. Complex for flat steel production in China. Chernye metally. 2017. No. 6. pp. 50–57. 13. Shinkin V. N. The mathematical model of the thick steel sheet flattening on the twelve-roller sheet-straightening machine. Message 2. Forces and moment. CIS Iron and Steel Review. 2016. Vol. 12. pp. 40–44. 14. Selivanov V. N., Kolesnikov Yu. A., Budanov B. A. et al. Use of mathematical models to study steel making processes. Stal. 2014. No. 5. pp. 16–20. 15. Rumyantsev M. I., Cherkasov K. E., Yakushev E. V. et al. Use of statistical prediction of properties to improve the effectiveness of pipe flat steel quality control. Magnitogorsk: Publishing House of Nosov Magnitogorsk State Technical University. 2014. 134 p. 16. Freihammer A., Krenn H., Blauensteiner P. Putting into practice the new flat rolling equipment in Austria. Chernye metally. 2017, No. 5. pp. 43–46. 17. 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. pp. 395–403. 18. Kreydlin N. N. Rolling force calculations in non-ferrous rolling. Moscow: Metallurgizdat, 1963. 407 p. 19. Smirnov V. S. Theory of rolling. Moscow: Metallurgiya. 1967. 460 p. 20. Lugovskoy V. M. Sheet rolling mill control algorithms. Moscow: Metallurgiya. 1974. 320 p. 21. Tselikov A. I. Basics of the theory of rolling. Moscow: Metallurgiya. 1965. 247 p. 22. Brovman M. Ya. Power parameters and improved rolling process. Moscow: Metallurgiya. 1995. 256 p. 23. М. I. Rumyantsev. Generalized algorithm aided design modes of rolling and its application for developing technology of PLTCM 2000. CIS Iron and Steel Review. 2014. Vol. 9. P. 40–44. 24. Rumyantsev M. I. The methods of engineering and improving technology for the purpose of upgrade the flat-rolled steel manufacture systems. Teoriya i tekhnologiya metallurgicheskogo proizvodstva. 2017. No. 4 (23). pp. 26–36. 25. Rumyantsev M. I. Some results of the development and application of the metodology for enhancing steel sheet production systems. Vestnik Magnitogorskogo gosudarstvennogo tekhnicheskogo universiteta im. G. I. Nosova. 2017. Vol. 15. No. 1. pp. 45–55. |