REVIEW ON COLD ROLLING MILL ROLL DEFORMATION

Authors

  • Ravi Goyal Mechanical Engineering Department, Jaipur Institute of Technology, Mahindra SEZ, Jaipur, Rajasthan, India
  • Anurag Joshi Mechanical Engineering Department, Jaipur Institute of Technology, Mahindra SEZ, Jaipur, Rajasthan, India
  • Umesh Gurnani Mechanical Engineering Department, University of Engineering & Management Sikar Road, NH-11, Jaipur, Rajasthan, India

DOI:

https://doi.org/10.20319/mijst.2015.11.8395

Keywords:

Cold Rolling Mill Rolls, Thermal Breakages, Spalling

Abstract

There are various reasons by which the damage in the cold rolling mill rolls occurs. The main objective is to highlight those reasons which are responsible for the breakage. The parameters considered during the manufacturing and during the regular use of rolls in cold rolling in the past researches and the effect of these parameters to increase the life of a roll. These are based upon the various factors and summarize the effect of parameters responsible for the deformation concluded by the various researchers in the past history of cold rolling mill.

References

Anand S. Nilewar,Sharad Chaudhari & Prafulla Chaudhari (2013). A Study of Lubrication and Its Effect on Steel in Cold Rolling Mill: A Review VSRD International Journal of Mechanical, Civil, Automobile and Production Engineering, Vol. 3 No.3 e-ISSN: 2249-8303, p-ISSN: 2319-2208, pp.87-92

Atkins, A. G. (1974). Hydrodynamic lubrication in cold rolling. International Journal of Mechanical Sciences, 16(1), 1-19.

Cao, J. G., Xu, X. Z., Zhang, J., Song, M. Q., Gong, G. L., & Zeng, W. (2011). Preset model of bending force for 6-high reversing cold rolling mill based on genetic algorithm. Journal of Central South University of Technology, 18, 1487-1492.

Cao, J. G., Zhang, J., Kong, N., & Mi, K. F. (2010). Finite element analysis of strip and rolling mills. Finite Element Analysis, Sciyo, Croatia, 561-588.

Ďurovský, F., Zboray, L., & Ferková, Ž. (2008). Computation of rolling stand parameters by genetic algorithm. Acta Polytechnica Hungarica, 5(2).

Jeng, S. C., & Chiou, H. S. (2011). Analysis of Surface Spalling on a First Intermediate Roll in Sendzirmir Mills. World Academy of Science, Engineering and Technology,(EI) Vol, 566- 569.

Jiang, Z. Y., Zhu, H. T., & Tieu, A. K. (2006). Mechanics of roll edge contact in cold rolling of thin strip. International Journal of Mechanical Sciences, 48(7), 697-706.

Jing, L. (2001). Rolling mill roll design (Doctoral dissertation, Durham University).

Mackel (2000). Maintenance and quality related condition monitoring in rolling mill, AISE, Chicago, Illinois/USA

Mackel, J., Seeliger, A., & Georges, D. (1997). Measurment and Diagnosis of Process-Disturbing Oscillations on Plants for Machine Condition Monitoring and Quality Control. In Proceedings of the XIVth Imeko World Congress.

Malvezzi, M., & Valigi, M. Influence of plastic deformation models in full-film lubrication of strip rolling.

Nakayama Katsumi, Kuchi Masahiro, Ogawa Shu, Matsuzawa Tsukasa & Sato Kazuyuki. Characteristics and Line-up of IHI’s Non-Ferrous Metal Rolling Mills pp 28-34

Saboonchi, A., & Aghili, S. M. (2005). The Effect of Header Geometry on Temperature Distribution in Cold Rolling. International Journal of Iron & Steel Society of Iran, 2(2), 24-29.

Schindler, I., Janosec, M., Místecky, E., Ruzicka, M., Cizek, L., Dobrzański, L. A., ... & Suchánek, P. (2009). Effect of cold rolling and annealing on mechanical properties of HSLA steel. Archives of Materials Science and Engineering, 36(1), 41-47.

Sech, J. M., Weinstein, D. I., & Kerr, E. M. (1990). The evaluation of rolling oils used in the cold rolling process for sheet steel by thermogravimetry. Lubrication engineering, 46(5), 297-300.

Shen, S. T., Wu, Y. M., Huang, C. C., & Huang, M. Z. (2008). Influence of Rolling Chemicals on Temper Rolling Process and Anti-Rust Performance of Cold Rolled Steels. China Steel Technical Report, (21), 45-51.

Singh, K. K., Mondal, N., Choudhary, R. B., Mishra, A. K., Prasad, R. R., Avtar, R., ... & Singh, W. (2011). Detection of Defects on Cold Rolling Mill (CRM) Rolls with Ultrasonic and Eddy Current Flaw Dectors.

Soszyński, W., & Studnicka, A. (2012). A review of contemporary solutions for cold rolling that allow quality improvement. Journal of Achievements in Materials and Manufacturing Engineering, 55(2), 810-816.

Umut Hanoglu, Supervised by Prof. Božidar Šarler, Mathematical and Physical Modeling of Flat Rolling Process Wendt, P., Frech, W., & Leifgen, U. (2007). Cold rolling defect, “stickers” and countermeasures. Heat Processing, 2, 127-129.

Downloads

Published

2015-07-15

How to Cite

Goyal, R., Joshi, A., & Gurnani, U. (2015). REVIEW ON COLD ROLLING MILL ROLL DEFORMATION. MATTER: International Journal of Science and Technology, 1(01), 83–95. https://doi.org/10.20319/mijst.2015.11.8395

Issue

Vol. 1 No. 01 (2015): Regular Issue

Section

Articles

License

Copyright (c) 2021 Authors

Creative Commons License

This work is licensed under a Creative Commons Attribution-NonCommercial 4.0 International License.

Copyright of Published Articles

Author(s) retain the article copyright and publishing rights without any restrictions.

Creative Commons License
All published work is licensed under a Creative Commons Attribution-NonCommercial 4.0 International License.