Cutting force prediction in ball end milling of sculptured surface with Z-level contouring tool path |
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Authors: | ZC Wei MJ WangJN Zhu LY Gu |
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Affiliation: | School of Mechanical Engineering, Dalian University of Technology, Dalian 116024, PR China |
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Abstract: | This paper presents an approach to predict cutting force in 3-axis ball end milling of sculptured surface with Z-level contouring tool path. The variable feed turning angle is proposed to denote the angular position of feed direction within tool axis perpendicular plane. In order to precisely describe the variation of feed turning angle and cutter engagement, the whole process of sculptured surface milling is discretized at intervals of feed per tooth along tool path. Each segmented process is considered as a small steady-state cutting. For each segmented cutting, the feed turning angle is determined according to the position of its start/end points, and the cutter engagement is obtained using a new efficient Z-map method. Both the chip thickness model and cutting force model for steady-state machining are improved for involving the effect of varying feed turning angle and cutter engagement in sculptured surface machining. In validation experiment, a practical 3-axis ball end milling of sculptured surface with Z-level contouring tool path is operated. Comparisons of the predicted cutting forces and the measurements show the reliability of the proposed approach. |
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Keywords: | Ball end milling Sculptured surface machining Feed turning angle Cutting force Z-map |
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