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|Author(s):||Matthew A. Davies; Timothy J. Burns;|
|Title:||Thermomechanical Oscillations in Material Flow During High-Speed Machining|
|Published:||April 01, 2001|
|Abstract:||This paper presents a nonlinear dynamics approach for predicting the transition from continuous to shear-localized chip formation in machining. Experiments and a simplified one-dimensional model of the flow both show that, as cutting speed is increased, a transition takes place form continuous to shear-localized chip formation in the flowfield of the material being cut. Initially, the process appears to be somewhat disordered. With further increases in cutting speed, the average spacing between shear bands increases monotonically, and the spacing becomes more regular and asymptotically approaches a limiting value that is determined by the cutting conditions and the properties of the workpiece material.|
|Citation:||Philosophical Transactions of the Royal Society London. Series A|
|Keywords:||adiabatic shear band,high-speed machining,Hopf Bifurcation,plasticity,relaxation oscillations chaotic dynamics|
|Research Areas:||Metrology and Standards for Manufacturing Processes|