Affiliation:
1. Islamic Azad University Semnan branch, Iran
Abstract
Chattering elimination of machining processes is an important issue in turning operation, due to the damages caused by this phenomenon. Limited productivity rate, decrease in tool life, poor surface quality and noisy workplace are some adverse effects of the chatter vibration. In this paper two control strategies are developed to suppress chatter vibration in turning process including a worn tool. A single degree of freedom model of the turning process including tool wear is briefly described. In the first stage, sliding mode approach used to control the system, and in the second stage fuzzy sliding mode approach is used. The simulation results indicate that the fuzzy sliding mode performs better than the direct sliding mode controller.
Publisher
Trans Tech Publications, Ltd.
Reference31 articles.
1. Merrit HE. Theory of self excited machine tool chatter: Contribution to machine-tool chatter research-1. Transactions of ASME Journal of Engineering for Industry 1965, B87(4): 447_54.
2. Tobias SA, Fishwick W. The chatter of lathe tools under orthogonal cutting conditions. Transactions of American Society of Mechanical Engineers 1958; 80: 1079.
3. Tlusty J, Ismail F. Basic nonlinearity in machining chatter. C.I.R. P Annual 1981: 30(2): 229_304.
4. Deshpande N, Fofana S. Nonlinear regenerative chatter in turning. Journal of Robotics and Computer-Integrated Manufacture 2001, 17: 107_12.
5. Stepan G, Insperger T, Szalai R. Delay, parametric excitation, and the nonlinear dynamics of cutting process. Journal of Bifurcation and Chaos 2005, 15(9): 2783_98.
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