Roll forming is an incremental bending process for forming metal sheet, strip or coiled stock. Although Finite Element Analysis (FEA) is a standard tool for metal forming simulation, it is only now being increasingly used for the analysis of the roll forming process. This is because of the excessive computational time due to the long strip length and the multiple numbers of stands that have to be modelled. Typically a single solid element is used through the thickness of the sheet for roll forming simulations. Recent investigations have shown that residual stresses introduced during steel processing may affect the roll forming process and therefore need to be included in roll forming simulations. These residual stresses vary in intensity through the thickness and this cannot be accounted for by using only one solid element through the material thickness, in this work a solid-shell element with an arbitrary number of integration points has been used to simulate the roll forming process. The system modelled is that of roll forming a V-channel with dual phase DP780 sheet steel. In addition, the influence of other modelling parameters, such as friction, on CPU time is further investigated. The numerical results are compared to experimental data and a good correlation has been observed. Additionally the numerical results show that the CPU time is reduced in the model without friction and that considering friction does not have a significant effect on springback prediction in the numerical analysis of the roll forming process.
History
Event
Metal Forming. Conference (14th : 2012 : Krakow, Poland)
Pagination
711 - 714
Publisher
Wiley
Location
Krakow, Poland
Place of publication
London, England
Start date
2012-09-16
End date
2012-09-19
ISBN-13
9783514007970
Language
eng
Publication classification
E2.1 Full written paper - non-refereed / Abstract reviewed
Copyright notice
2012, Wiley
Title of proceedings
Steel Research Journal : Proceedings of the 14th International Conference on Metal Forming