Stellin T, Van Tijum R, Merklein M, Engel U (2014)
Publication Type: Conference contribution
Publication year: 2014
Publisher: Trans Tech Publications Ltd
Book Volume: 611-612
Pages Range: 565-572
Conference Proceedings Title: Material Forming - ESAFORM 2014
ISBN: 9783038351061
DOI: 10.4028/www.scientific.net/KEM.611-612.565
The on-going trend in product miniaturization, together with the increasing quality and reduction of costs of micro-components, leads to the need of a robust process design, which might additionally avoid the occurrence of defects in the workpiece. Processes like microforming are affected by variations which can be foreseen but not totally mastered in the design stage. One approach is seen in an adaptive control system based on a metamodel processing the data of online measuring. This approach is grounded on in-depth knowledge based on correct and precise process modelling. This paper presents both experimental and simulative study of a microforging process, part of a more complex forming chain. It consists of six parallel ribs on metal strip. The ribs have a width of 250 μm and are spaced by a gap of 150 μm. The process has been studied by different punch forces, analyzing the final geometry of the workpiece. In particular the rib height is considered as critical to quality parameter. The simulations show reliable results that can be used for the design of the model interfacing measurement and control of the whole microforming process. © 2014 Trans Tech Publications, Switzerland.
APA:
Stellin, T., Van Tijum, R., Merklein, M., & Engel, U. (2014). Study of Microforging of Parallel Ribs from Metal Strip. In Larkiola, J. (Eds.), Material Forming - ESAFORM 2014 (pp. 565-572). Trans Tech Publications Ltd.
MLA:
Stellin, Tommaso, et al. "Study of Microforging of Parallel Ribs from Metal Strip." Proceedings of the Material Forming - ESAFORM 2014 Ed. Larkiola, J., Trans Tech Publications Ltd, 2014. 565-572.
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