Rolling | |
ArticleName | Universal flatness model for process optimization in cold rolling mills |
ArticleAuthor | Ch. Bartholdt, F. Kopin, M. Jelali |
ArticleAuthorData | Andritz Sundwig GmbH (Hemer, Germany): Ch. Bartholdt, Head of Rolling Mills Technological Dept., e-mail: christian.bartholdt@andritz.com
Technical High School Köln (Cologne, Germany): |
Abstract | In order to optimize rolling processes and to increase strip quality and the productivity of rolling mills, Andritz Sundwig has developed a modular and universally applicable flatness model for all types of rolling mills with configurable flatness actuators. The model takes into account all effects and components involved in the flatness development. Latest insights and methods for describing the effects were included. Particular emphasis was placed on the computational efficiency of the implemented solution algorithms to enable online applications such as mill pre-setting. It is planned in the nearest future to use flatness model in the development of rolling program with optimized strip flatness for each pass. It will allow to improve efficiency of rolling stand settings, to increase reduction per pass and, consequently, to rise rolling mill productivity. It is concluded, that development of optimization strategy and algorithms that will be able to account partly contradictory requirements and criteria is rather necessary in order to calculate rolling program and rolling stands’ settings for final flatness improvement. |
keywords | Cold rolling, strip flatness, rolling program, rolling stand settings, strip quality, flatness model, reduction per pass |
References | 1. Allwood, J. M.; Bryant, G. F.: Fast modelling of roll stack behaviour for control applications, Proc. of the Institution of Mechanical Engineers, Part C: J. Mech. Eng. Sc. 211 (1997), S. 373/86. |
Language of full-text | russian |
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