Stability-based spindle speed control during flexible workpiece high-speed milling |
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Authors: | I Ma V Gagnol BC Bouzgarrou P Ray |
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Affiliation: | aLaMI, IFMA/UBP-Campus des Cézeaux, BP 265 63175 Aubiere Cedex, France |
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Abstract: | High-speed machining (HSM) is a technology used to increase productivity and reduce production costs. The prediction of stable cutting regions represents an important issue for the machining process, which may otherwise give rise to spindle, cutter and part damage. In this paper, the dynamic interaction of a spindle-tool set and a thin-walled workpiece is analysed by a finite element approach for the purpose of stability prediction.The gyroscopic moment of the spindle rotor and the speed-dependent bearing stiffness are taken into account in the spindle-tool set finite element model and induce speed-dependent dynamic behaviour. A dedicated thin-walled workpiece is designed whose dynamic behaviour interacts with the spindle-tool set. During the machining of this flexible workpiece, chatter vibration occurs at some stages of machining, depending on the cutting conditions and also on the tool position along the machined thin wall.By coupling the dynamic behaviour of the machine and the workpiece, respectively, dependent on the spindle speed and the relative position of both the systems, an accurate stability lobes diagram is elaborated.Finally, the proposed approach indicates that spindle speed regulation is a necessary constraint to guarantee optimum stability during machining of thin-walled structures. |
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Keywords: | Spindle-bearing system Rotor-dynamics prediction Chatter vibration Thin-walled structure Stability lobes Spindle speed control |
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