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Development of metallurgy in Russia and CIS
ArticleName Comparative analysis of alternative solutions of mould oscillation for continuous casters
ArticleAuthor I. F. Goncharevich, G. N. Elanskiy
ArticleAuthorData

Russian Engineering Academy (Moscow, Russia):

Goncharevich I. F., Dr. Eng., Prof.
Elanskiy G. N., Dr. Eng., Prof., e-mail: elanskiy37@mail.ru

Abstract

Technological procedure with asymmetric mould oscillations at continuous casters is unanimously considered at present time as the most effi cient and therefore the new units are manufactured with such moulds; asymmetry is related to rate of oscillations. The paper presents discussion about modernization of the existing continuous casters with moulds operating in the mode of harmonic oscillations. It is suggested that the mode of biharmonic oscillations can be taken as alternative variant for harmonic mode of oscillations. Putting this mode into practice can be achieved via replacement of the existing eccentric drives of moulds by mechanically balanced biharmonic drive described in this paper. The proposed system allows to solve the problem of development of the mechanical drive of such molud, providing its technologically eff ective biharmonic oscillations and compensating dynamical loads occurred during its oscillations. Prevention of intensive dynamic cyclic loads of construction components of a continuous caster, elimination of parasitic oscillations and crushing of levered suspension of a mould joints, compensation of dynamic loads in drive and lowering of power consumption by a mould drive can be noted as technical results of the developed mould project. Consequently, quality of metal surface and structure on continuously cast billets are improved.

keywords Continuous caster, moulds, asymmetric oscillations, harmonic oscillations, biharmonic oscillations, oscillation rate, lubrication, drive, dynamic loads
References

1. Elanskiy G. I.,Goncharevich I. F. Sposob i ustroystvo dlya obrabotki vibratsiey nepreryvnolitykh zagotovok (Method and equipment for vibration treatment of continuous cast ingots). Patent RF, No. 2327544. Applied: December 27, 2005. Published: June 27, 2008.
2. Kuklev A. V., Ayzin Yu. M., Loginov A. M., Ganin D. R., Gonchare vich I. F. Sposob nepreryvnogo litya stali (Method of continuous casting of steel). Patent RF, No. 2428274. Applied: November 16, 2010. Published: September 10, 2011.
3. Elanskiy G. K., Goncharevich I. F., Kosyrev A. I., Galkin M. P., Kabad ze R. V. Sposob i ustroystvo dlya obrabotki vibratsiey nepreryvnolitykh zagotovok (Method and equipment for vibration treatment of continuous cast ingots). Patent RF, No. 2239516. Applied: April 11, 2003. Published: November 10, 2004.
4. Elanskiy G. N., Goncharevich I. F. Sovershenstvovanie rezhimov raboty kristallizatorov mashiny nepreryvnogo litya zagotovok (Improvement of operation modes of continuous-casting machine crystallizers). Stal = Steel. 2011. No. 11. pp. 14–21.
5. Goncharevich I. F., Elanskiy G. N., Shcheglov S. V. Novye razrabotki v oblasti vysokoeff ektivnykh rezhimov kachaniy kristallizatorov mashiny nepreryvnogo litya zagotovok i realizuyushchikh ikh privodov (New developments in the sphere of high-effi cient ascellation modes of continuous-casting machine crystallizers and their realizing drives). Trudy XII Kongressa staleplavilshchikov (Proceedings of the XII Congress of steel-makers). Moscow : Metallurgizdat, 2013. pp. 312–316.

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