Abstract
In the drilling of flexible work pieces, the work piece movement makes the prediction of the machining time more difficult. This is due to the variance between the defined machining parameters and the effective machining conditions at the cutting edges. Consequently, feed rate strategies cannot be applied on the basis of the machining parameters. Therefore, a mechanistic modelling approach will be presented, which allows to calculate the feed forces in an unsteady drilling process. Thereby, the relative position between work piece and drilling tool can be known at any time. The model allows the consideration of the tool geometry, whereby drilling processes with state of the art step drills can be simulated. In the end, the prediction of characteristic drilling phases can be used to determine the timing to apply feed rate strategies to reduce push-out delamination. The practicability of the simulation and the efficiency of two different feed rate strategies will be shown for unsupported drilling processes with the typical aeronautics composite material M21/T800S.
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Lissek, F., Hloch, S., Kaufeld, M. (2019). Time-Dependent Feed Force Modelling to Apply Feed Rate Strategies in the Drilling of Unsupported CFRP-Structures. In: Hloch, S., Klichová, D., Krolczyk, G., Chattopadhyaya, S., Ruppenthalová, L. (eds) Advances in Manufacturing Engineering and Materials. Lecture Notes in Mechanical Engineering. Springer, Cham. https://doi.org/10.1007/978-3-319-99353-9_29
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DOI: https://doi.org/10.1007/978-3-319-99353-9_29
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