论文信息 - A rapid calculation method for predicting roll deformation of six-high rolling mill

A rapid calculation method for predicting roll deformation of six-high rolling mill

The method to predict roll deformation precisely and efficiently is vital for the strip shape control of a six-high rolling mill. Traditional calculation methods of roll deformation, such as the finite element method and the influence function method, have been widely used due to their accuracies. However, the required calculation time is too long to be applied to the real-time control. Therefore, a rapid calculation method for predicting roll deformation of a six-high rolling mill was proposed, which employed the finite difference method to calculate the roll deflection and used a polynomial to describe the nonlinear relationship between roll flattening and roll contact pressure. Furthermore, a new correction strategy was proposed in the iteration, where the roll center flattening and the roll flattening deviation were put forward and corrected simultaneously in the iteration process according to the static equilibrium of roll. Finally, by the comparison with traditional methods, the proposed method was proved to be more efficient and it was suitable for the online calculation of the strip shape control.

Li Xie | Chao Liu | An-rui He

[1] Xue Jun Wang,et al. Study on Advanced Structure with Application of Improved Influence Function Method in Solving Roll System Deformation Based on Material Properties , 2013 .

[2] S. Timoshenko,et al. Theory of Elasticity (3rd ed.) , 1970 .

[3] J. H. Cho,et al. A New Model for the Prediction of Roll Deformation in a 20-High Sendzimir Mill , 2014 .

[4] Zhengyi Jiang,et al. Analysis of cold rolling of ultra thin strip , 2009 .

[5] Yuli Liu,et al. Mathematical Model for the Thin Strip Cold Rolling and Temper Rolling Process with the Influence Function Method , 2005 .

[6] Greyham Frank Bryant. Automation of tandem mills , 1973 .

[7] Fanfu Kong. Research on Rapid Online Calculation Methods of Roll Stack Deformation , 2012 .

[8] Ramana V. Grandhi,et al. A computational method to predict strip profile in rolling mills , 2008 .

[9] S. Timoshenko,et al. Theory of elasticity , 1975 .

[10] Xianghua Liu,et al. FEM Analysis of Rolling Pressure Along Strip Width in Cold Rolling Process , 2007 .

[11] Zhengyi Jiang,et al. Mechanics of roll edge contact in cold rolling of thin strip , 2006 .

[12] Practice of Improving Roll Deformation Theory in Strip Rolling Process Based on Boundary Integral Equation Method , 2014, Metallurgical and Materials Transactions A.

[13] Xianghua Liu,et al. Analysis of Roll Gap Pressure in Sendzimir Mill by FEM , 2008 .