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 ENG  Vol.3 No.7 , July 2011
Development of Roller Ends Forced-Contact Model and Cambering Technology for UCM Temper Mill (II)——Development of cambering technology for UCM temper mill
Abstract: Roller ends forced-contact and overmuch roll consumption are the widespread problems in temper rolling process of thin strip for two-stand UCM temper mill. Fully thinking the equipment and technology characteristics of UCM temper mill, we took the newly-built 1220 UCM temper mill of Baosteel as the research object in this paper. A model of roller ends forced-contact and a calculation model of flatness for UCM temper mill are established after a great deal of site tracing and theoretical researches. On this basis, an optimal mathematical model of roll shape which is suited for UCM temper mill is developed. Working roll curve is the combination of cosine curve and high order curve. The cosine subentry is used to control edge wave, the high order curve subentry is used to control roller ends forced-contact. Furthermore, the chamfering curve of middle roller end is optimized. Those are the innovations. Through the above-mentioned technology, pressure distribution between rollers caused by the shift of middle roll becomes more homogeneous, pressure peak disappeared, working life of roll is improved effectively as well. Relevant technologies have been used to the practice of 1220 UCM temper mill of Baosteel and have achieved good use effects, which is of further extending application value.
Cite this paper: nullZ. Bai, X. Shi, H. Si, L. Han, R. Long, S. Wu, X. Li and D. Zhang, "Development of Roller Ends Forced-Contact Model and Cambering Technology for UCM Temper Mill (II)——Development of cambering technology for UCM temper mill," Engineering, Vol. 3 No. 7, 2011, pp. 743-749. doi: 10.4236/eng.2011.37089.
References

[1]   Z. H. Bai, “Development and Research of Shape Control Technology about Skin Mill,” Doctoral Dissertations, Yanshan University, Qinhuang Island, 2002.

[2]   J. C. Lian and H. M. Liu, “Guage and Shape Control,” Weapon Industry Press, Beijing, 1995.

[3]   Z. H. Bai, X. P. Kang and R. B. Long, “Practical Temper Rolling Force Model and Its Self Study Technology,” Steel, Vol. 43, No. 10, 2008, pp. 51-54.

[4]   Z. H. Bai, Y. F. Jiang and X. D. Li, “Kiss between Roller Ends in Skin Rolling Process of Super Thin Strip,” Chinese Journal of Mechanical Engineering, Vol. 42, No. 8, 2006, pp. 224-228. doi:10.3901/JME.2006.08.224

[5]   Z. H. Bai and J. Yang, “Research on Shape Technique for Baosteel Planishing Mill,” Bao-Steel Technology, Vol. 1, 2003, pp. 48-51.

[6]   Z. H. Bai, “Calculating Model of Rolling Parameters of Two-Stand Planishing Mill,” Journal of Iron and Steel Research, Vol. 18, No. 9, 2006, pp. 29-31.

[7]   Z. H. Bai, X. P. Kang and S. M. Wu, “Shape Parameters Online Setting of Two-Stand UCM Temper Mill,” Steel, Vol. 44, No. 5, 2009, pp. 39-43.

[8]   Z. H. Bai, J. C. Lian, F. Liu and J. Q. Wang, “Research of the Roll Crown Optimization on Skin Pass Mill in Baosteel 2050 Hot Rolling Plant,” Steel, Vol. 37, No. 9, 2002, pp. 35-38.

 
 
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