EAP - Proceedings of the Estonian Academy of Sciences. Engineering Journal Information

Proceedings of the Estonian Academy of Sciences. Engineering

2007 Vol. 13, Issue 4 Vol. 13, Issue 3 Vol. 13, Issue 2 Vol. 13, Issue 1 2006 2005 2004 2003 2002 2001 2000 1999 1998 1997 1996 1995

Open Access Journal

Non-circular grinding of backup rolls to reduce rolling force variation; pp. 168–179

PDF | https://doi.org/10.3176/eng.2007.2.09

Authors

Thomas Widmaier, Jari Uusimäki, Petri Kuosmanen, Jari Juhanko, Pekka Väänänen

Abstract

A common structure in hot strip mill backup roll bearings is to attach the conical sleeve of the slide bearing to the roll’s shaft by a key. The key groove, cut to the conical sleeve, locally causes deformation under load. This sleeve spring is observed as rolling force variation. A new method to minimize force variations, based on 3D grinding of the backup rolls, was developed. A non-circular shape was ground on the rolls. The empirical research took place at a hot strip mill. As a result, the 3D ground non-circular geometry of the backup rolls considerably reduced the rolling force variation.

References

1. Ginzburg, V. B. Roll Eccentricity. Rolling Mill Technology Series, vol. 1. United Engineering Inc., International Rolling Mill Consultants Inc. Pittsburgh, Pennsylvania, 1987.

2. Kugi, A., Haas, W., Schlacher, K., Aistleitner, K., Helge, F. M. and Rigler, G. W. Active compensation of roll eccentricity in rolling mills. IEEE Trans. Industr. Appl., 2000, 36, 625–632.
doi:10.1109/28.833781

3. Uusimäki, J. Minimizing Roll Force Variations in a Rolling Mill. Master thesis, Helsinki University of Technology, Laboratory of Machine Design, Espoo, 2004.

4. Millmate Roll Force Meter PFV130. Users Guide, ABB Automation Products AB, 2000.

5. Kuosmanen, P. Predictive 3D Roll Grinding Method for Reducing Paper Quality Variations in Coating Machines. Helsinki University of Technology Publications in Machine Design 2/2004, ISBN 951-22-7014-5, Espoo, 2004.

6. Kuosmanen, P. and Väänänen, P. New highly advanced roll measurement technology. In Proc. 5th International Conference on New Available Techniques, The World Pulp and Paper Week. Stockholm, 1996, 1056–1063.

7. Ozono, S. On a new method of roundness measurement on the three point method. In Proc. International Conference on Precision Engineering. Tokyo, 1974, 457–462.

8. Väänänen, P. Turning of Flexible Rotor by High Precision Circularity Profile Measurement and Active Chatter Compensation. Licentiate thesis, Helsinki University of Technology, Laboratory of Machine Design, Espoo, 1993.

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