A novel method for calibration of tool run-out in micro end-milling

Yudong Zhou, Yanling Tian, Fujun Wang, Xiubing Jing, Xiang Cai
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引用次数: 1

Abstract

In the process of micro end-milling, the axis of the micro end-mill does not coincide with the spindle axis on account of the inherent assembly errors, which is named as tool run-out. Tool run-out has a significant effect on the cutting force and surface topography predictions, and thus, accurate calibration of tool run-out is of vital importance. In this paper, a novel method was proposed to calibrate the tool run-out in micro end-milling operation, in which both axes offset and tilt were taken into consideration. The suggested method is easy to perform, and the calibration process is based on the analysis of the measured contour variations and phase shifts at different axial sections. Further, the verification tests were conducted to confirm the effectiveness of the proposed method, and the verification results show that the calibration accuracy is sufficient to capture the tool deviation.
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一种新的微立铣刀动差标定方法
在微立铣削加工过程中,由于固有的装配误差,导致微立铣刀的轴线与主轴轴线不重合,称为刀具跑偏。刀具跳动对切削力和表面形貌的预测有重要影响,因此刀具跳动的准确校准至关重要。提出了一种同时考虑轴向偏移和轴向倾斜的微立铣刀动差标定方法。该方法操作简单,校正过程基于对不同轴向截面的测量轮廓变化和相移的分析。通过验证试验,验证了该方法的有效性,验证结果表明,标定精度足以捕获刀具偏差。
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