Affiliation:
1. Technische Universität Darmstadt
Abstract
Uncertainty in the properties of semi-finished parts can cause fluctuations in the product properties, especially if they have a strong effect on the process and cannot be compensated by process adjustments. Incremental forming processes have the potential to react to changing conditions by adapting the tool movement during the process. This paper analyzes the feasibility of controlling material flow in an orbital forming process in order to selectively fill those geometric elements which were specified with narrow tolerances by the designer. The effect of different process parameters on the mushroom effect and the degree of mold filling are analyzed by FEM simulations and experiments. In order to realize online monitoring and control, an estimation model is introduced, which maps signals from sensors and the process control to the geometric target values.
Publisher
Trans Tech Publications, Ltd.
Reference8 articles.
1. Lange, K.; Pöhlandt, K., Handbook of metal forming, McGraw-Hill, (1985).
2. Schondelmaier, J., Grundlagenuntersuchung über das Taumelpressen (in German, Basic Investigantions on Orbital Forming), Springer-Verlag, Berlin Heidelberg New York, (1992).
3. Munshi, M.; Shah, K.; Cho, H.; Altan, T., Finite element analysis of orbital forming used in spindle/inner ring assembly, in: Proc. ICTP, (2005).
4. Han, X.; Hua, L., Effect of size of the cylindrical workpiece on the cold rotary-forging process, Materials & Design, Vol. 30 (2009), pp.2802-2812 (doi: 10. 1016/j. matdes. 2009. 01. 021).
5. Liu, G.; Yuan, S. J.; Wang, Z. R.; Zhou, D. C., Explanation of the mushroom effect in the rotary forging of a cylinder, Journal of Materials Processing Technology, Vol. 151 (2004), pp.178-182 (doi: 10. 1016/j. jmatprotec. 2004. 04. 035).
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