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- Title
A new mathematical model for predicting the diameter expansion of flat ring in radial-axial ring rolling.
- Authors
Xu, Wujiao; Yang, Xiaobing; Gong, Xiaotao; Zhou, Jie
- Abstract
An accurate prediction for the diameter expansion is quite essential for the ring rolling with large diameter since it determines the compatibility between the work rolls and the deformed ring in kinematics, so that the rolling stability and the final forming quality of the ring are influenced. A new mathematical model for predicting the diameter expansion of the flat ring in the radial-axial rolling process has been proposed, in which the variation of cross section, the particularity of initial rolling phase, and the effect of slip are all taken into consideration. Based on the proposed mathematical model, a 3D-FEM model for the radial-axial ring rolling process has been developed, and the corresponding experimentation has also been carried out. The diameter expansion in the simulation shows a good agreement with that in the experimentation. The forming quality comparison concerning the circularity, coaxiality, and tilting of the rolled ring has been executed between the former and new proposed method. The result indicates that the new mathematical method is very helpful to control the forming stability and hence improve the ring rolling quality significantly.
- Subjects
RING rolling (Metalwork); MATHEMATICAL models; AXIAL loads; PREDICTION theory; DEFORMATIONS (Mechanics); KINEMATICS; FINITE element method
- Publication
International Journal of Advanced Manufacturing Technology, 2012, Vol 60, Issue 9-12, p913
- ISSN
0268-3768
- Publication type
Article
- DOI
10.1007/s00170-011-3666-y