Xie Lei, Zhang Yunfan, You Yunfeng, et al. Calculation and simulation on mid-spatial frequency error in continuous polishing[J]. High Power Laser and Particle Beams, 2013, 25: 3307-3310. doi: 3307
Citation:
Xie Lei, Zhang Yunfan, You Yunfeng, et al. Calculation and simulation on mid-spatial frequency error in continuous polishing[J]. High Power Laser and Particle Beams, 2013, 25: 3307-3310. doi: 3307
Xie Lei, Zhang Yunfan, You Yunfeng, et al. Calculation and simulation on mid-spatial frequency error in continuous polishing[J]. High Power Laser and Particle Beams, 2013, 25: 3307-3310. doi: 3307
Citation:
Xie Lei, Zhang Yunfan, You Yunfeng, et al. Calculation and simulation on mid-spatial frequency error in continuous polishing[J]. High Power Laser and Particle Beams, 2013, 25: 3307-3310. doi: 3307
Based on theoretical model of continuous polishing, the influence of processing parameters on the polishing result was discussed. Possible causes of mid-spatial frequency error in the process were analyzed. The simulation results demonstrated that the low spatial frequency error was mainly caused by large rotating ratio. The mid-spatial frequency error would decrease as the low spatial frequency error became lower. The regular groove shape was the primary reason of the mid-spatial frequency error. When irregular and fitful grooves were adopted, the mid-spatial frequency error could be lessened. Moreover, the workpiece swing could make the polishing process more uniform and reduce the mid-spatial frequency error caused by the fix-eccentric plane polishing.
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