Constant surface roughness over tool-lifetime due to online process monitoring and cutting parameter adaption in turning of gear steel

Q2 Social Sciences

International Journal of Sustainable Manufacturing Pub Date : 2020-04-23 DOI:10.1504/ijsm.2020.10028816

E. Uhlmann, Tobias Holznagel, Patrick Berardi

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引用次数: 0

Abstract

High process forces and temperatures in turning operations cause high tool wear rates. Tool wear such as flank face abrasion has direct impact on workpiece geometry and resulting surface roughness. Since tools are used until tool life criterion is reached, surface quality can vary widely over the workpiece even when constant cutting parameters are utilised. A measurement system based on laser triangulation has been developed which enables the online measurement of surface roughness on the workpiece during the turning process. Using the online surface roughness measurements, closed-loop controllers were developed in order to adapt the tool feed and the cutting velocity to retain constant surface roughness even when tool wear is progressing. An optimised process with constant cutting parameters was benchmarked to the developed processes with adaptive cutting parameters. It can be shown that parameter adaption has the potential to lead to efficient processes and increases the tool-lifetime TToollife significantly.

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齿轮钢车削过程在线监测和切削参数自适应使刀具寿命期间表面粗糙度恒定

在车削操作中，高加工力和温度导致高刀具磨损率。刀具磨损，如侧面磨损，对工件几何形状和表面粗糙度有直接影响。由于刀具一直使用到达到刀具寿命标准，因此即使使用恒定的切削参数，工件的表面质量也会有很大差异。研制了一种基于激光三角测量的测量系统，实现了车削加工过程中工件表面粗糙度的在线测量。利用在线表面粗糙度测量，开发了闭环控制器，以适应刀具进给和切削速度，即使在刀具磨损加剧时也能保持恒定的表面粗糙度。将具有恒定切削参数的优化工艺与具有自适应切削参数的开发工艺进行了对比。结果表明，参数自适应具有提高工艺效率和显著提高刀具寿命的潜力。

本文章由计算机程序翻译，如有差异，请以英文原文为准。

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来源期刊

International Journal of Sustainable Manufacturing Social Sciences-Social Sciences (miscellaneous)

CiteScore

1.90

自引率

0.00%

发文量