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Development of metallurgy in Russia and other CIS countries
ArticleName Stability of flat strip taking into account elastic-plastic bending by metal thickness in thin sheet rolling
ArticleAuthor E. A. Maksimov, R. L. Shatalov, A. S. Lukash
ArticleAuthorData Ph.D. E. A. Maksimov, Head of Department of Rolling Mill Equipment, LLC “INTRAI”, Chelyabinsk; Dr. Eng., Prof. R. L. Shatalov, Head of Chair of Metallurgy, Metal Science and Metal Forming; A. S. Lukash, Postgraduate, Moscow State Open University, Russia; mmomd@mail.ru
Abstract

The technique for determination of critical compressing stresses and shape parameter during elastic-plastic loss of strip longitudinal stability in thin sheet rolling is presented in the paper. It was established that critical stresses and shape parameter can be located both in elastic and plastic areas for dimension range of strips processed on hot rolling and cold rolling mills. Consequently, it requires development of calculation technique for shape parameter, taking into account elastic-plastic bending by metal thickness for corrugated strip part. Pilot rolling of 12Kh18N10T stainless steel strips of austenite type at 4-high reversing rolling mill 1700 located at “Mechel” metallurgical works has displayed that corrugating amplitude in increasing respectively since 6th till 9th pass from 10 to 20 mm, while wave period length decreases from 1200 mm to 1000 mm. and a/L shape parameter rises from 0.008 to 0.02. Comparison of actual and calculated shape parameters has shown that deviation doesn't exceed 15.7–16.6%, it allows to improve precision of calculation of critical stresses and flatness parameters. The new technique can be used in development of reduction procedures and for estimation of operating efficiency of the systems for adjusting geometrical shape and cross section.
keywords Stainless steels, strip, thin sheet, hot rolling, cold rolling, critical stresses, elastic and plastic bending, longitudinal stability, shape parameter.
References

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