Integrated planning for precision machining of complex surfaces—III. Compensation of dimensionai errors |
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Authors: | Ee Meng Lim Chia-Hsiang Menq David W. Yen |
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Affiliation: | aDepartment of Mechanical Engineering, The Ohio State University, Columbus, OH 43210-1107, U.S.A.;bGeneral Motors Technical Center, Warren, MI, U.S.A. |
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Abstract: | This paper presents an approach that compensates machining errors in ball-end milling processes using the control-surface strategy. In the proposed approach, machining errors induced by cutter deflections are predicted from a surface generation model so that actual machining experiments and dimensional inspections are not required. Therefore, the proposed approach can be integrated into an integrated framework for machining planning in which prediction and compensation of dimensional errors take place in the process development phase rather than in the manufacturing phase of the production cycle. Based on the predictive capability of the surface generation model, a sensitivity function is defined so as to characterize the variations of the machining errors when perturbing the control surface. Using the defined sensitivity function, a compensated control surface can be constructed, based on which new cutting paths can be planned and “near-zero” surface dimensional errors can be accomplished. In order to verify the proposed strategy, actual production of a turbine blade die using a CNC machining center was conducted. By using the control-surface strategy with the sensitivity function approach, the maximum surface dimensional error is reduced from ± 340 to ± 10 μm. |
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