Abstract
This study presents a decision-making methodology for multi-pass turning operations that integrates tool life and cutting conditions optimization. In this approach, the initial machining plan considers all possible roughing passes and a finishing pass. At the end of the computation process, the existence of a roughing pass in the final program of the operation is evaluated using a combinatorial variable associated to this pass. On the other hand, the tool replacement is considered in the optimal selection of the cutting conditions so that this tool can achieve an exact number of operations. However, the developed optimization model which minimizes production cost is able to predict the number of required passes, the optimal cutting conditions for each pass, and the number of parts per tool. Finally, an example is presented to discuss the influence of the integration of combinatorial variables on the planning of operations. For several different total depths of cut, the obtained results show the capacity to produce a complete machining program in which even the tool replacement moment is clearly determined.
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Ameur, T. (2021). Optimal Planning of Multi-pass Turning Operations. In: Kharrat, M., Baccar, M., Dammak, F. (eds) Advances in Mechanical Engineering, Materials and Mechanics. ICAMEM 2019. Lecture Notes in Mechanical Engineering. Springer, Cham. https://doi.org/10.1007/978-3-030-52071-7_9
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DOI: https://doi.org/10.1007/978-3-030-52071-7_9
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