Study of corrective abrasive finishing for plane surfaces using magnetic abrasive finishing processes

IF 3.5 3区工程技术 Q2 MATERIALS SCIENCE, MULTIDISCIPLINARY

Nami Jishu yu Jingmi Gongcheng/Nanotechnology and Precision Engineering Pub Date : 2021-05-17 DOI:10.1063/10.0004961

Yulong Zhang, Y. Zou

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引用次数: 4

Abstract

On the basis of ordinary plane magnetic abrasive finishing, a finishing method is proposed that can improve the flatness of a plane workpiece. In this method, the feed speed is varied during finishing according to the profile curve of the initial surface and the material removal efficiency, to control the effective finishing time in different areas and thereby improve the surface flatness. A small magnetic pole with an end face diameter of 1 mm is designed, and a ferromagnetic plate is placed under the workpiece to improve the uniformity of the magnetic field distribution near the magnetic pole. An experiment on an A5052 aluminum alloy plate workpiece shows that after 60 min of finishing using the proposed method, the extreme difference of the workpiece surface can be reduced from 14.317 μm to 2.18 μm, and the standard deviation can be reduced from 3.322 μm to 0.417 μm. At the same time, according to the measurement results, a similar flatness can be achieved at different positions on the finishing area. Thus, the proposed variable-speed finishing method leads to obvious improvements in flatness.

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平面表面磁研磨修正抛光工艺研究

在普通平面磁性磨料精加工的基础上，提出了一种提高平面工件平面度的精加工方法。在这种方法中，在精加工过程中，根据初始表面的轮廓曲线和材料去除效率来改变进给速度，以控制不同区域的有效精加工时间，从而提高表面平整度。设计了一个端面直径为1mm的小磁极，并在工件下方放置了一块铁磁性板，以提高磁极附近磁场分布的均匀性。在A5052铝合金板材上进行的实验表明，采用该方法精加工60min后，工件表面的极值差可从14.317μm降至2.18μm，标准偏差可从3.322μm降至0.417μm。同时，根据测量结果，在精加工区域的不同位置可以获得相似的平面度。因此，所提出的变速精加工方法显著提高了平面度。

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