Abstract
In order to generate desired functional properties in the surface layer of machined parts, today several iterative attempts are needed to achieve the specified surface and subsurface properties. Despite progress in simulation and modelling, which is limited to individual processes and investigations, a predictive adjustment of a manufacturing process in terms of a specific state of surface integrity is not possible. In this work, an alternative view regarding manufacturing processes, based on occurring internal physical mechanisms, is presented. It is shown for several processes, that the surface integrity due to material modifications can be correlated with internal material loads occurring during the process. To utilise this method in practical applications, approaches are presented which should enable a reduction in the complexity of the mathematical description of the internal material loading states.
Publisher
Trans Tech Publications, Ltd.
Reference21 articles.
1. M. Field, W. Koster, Optimizing grinding parameters to combine high productivity with high surface integrity, CIRP Ann. Manuf. Technol. 27/2 (1978) 523–526.
2. Y. Choi, Effects of altering surface integrity by electrolytic etching on fatigue performance in rolling contact, Int. J. Fatigue (2014).
3. H. Remes, E. Korhonen, P. Lehto, J. Romanoff, A. Niemelä, P. Hiltunen, T. Kontkanen, Influence of surface integrity on the fatigue strength of high-strength steels, J. Constr. Steel res. 89 (2013) 21–29.
4. S. Fangmann, Orbitalbohrstrategien in seriellen Werkstoffverbunden, Shaker Verlag, Aachen (2012).
5. M. Field, J.F. Kahles, Review of Surface Integrity of Machined Components, CIRP Ann. Manuf. Technol. 20/2 (1971) 153–163.
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4 articles.
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