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1. Numerical and experimental investigation of strip deformation in cage roll forming process for pipes with low ratio of thickness/diameter.

Author

Kasaei, M. M., Naeini, H. Moslemi, Tehrani, M. Salmani, and Tafti, R. Azizi

Subjects

*FINITE element method, *THREE-dimensional imaging, *SIMULATION methods & models, *STRAINS & stresses (Mechanics), *COMPUTER simulation, *LAGRANGIAN functions, *NUMERICAL analysis

Abstract

Cage roll forming is one of the advanced methods of cold roll forming process which is used widely for producing ERW pipes. In addition to decreasing the production cost and time, using cage roll forming provides smooth deformation on the strip. Few studies can be found about cage roll forming because of its complexity, and the available knowledge is experience-based more than science-based. In this paper, deformation of pipes with low ratio of thickness/diameter is investigated by 3D finite element simulation in Marc-Mentat software. Edge buckling defect in cage roll forming of low ratio of thickness/diameter pipes is very important. Due to direct influence of longitudinal strain on the edge buckling phenomenon, longitudinal strains at the edge and center line of the strip are investigated and high risk stands are introduced. The deformed strip is predicted using the simulation results and effects of each cage forming stage on the deformed strip profile are specified. In order to verify the simulation results, strip width and opening distance of the two edges in different forming stages are obtained from the simulations and compared with the experimental data which were measured from the production line. A good agreement between the experimental and simulated results is observed. [ABSTRACT FROM AUTHOR]

Published

2011