Detection of orientation-dependent, single-crystal diamond tool edge wear using cutting force sensors, while spin-turning silicon

Eric R. Marsh; Edward J. Sommer; Theodore R.S. Deakyne; George A. Kim; James A. Simonson

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Detection of orientation-dependent, single-crystal diamond tool edge wear using cutting force sensors, while spin-turning silicon

机译：旋转切削硅时，使用切削力传感器检测与方向有关的单晶金刚石刀具的边缘磨损

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This paper shows results of an effort to turn brittle materials using a round insert that can be rotated to present a fresh edge to the cutting zone. The rotating cutting tool was originally proposed by Shaw to maintain edge sharpness during heavy lathe turning operations. His approach is applied here, with design enhancements, to precision diamond turning. This work seeks to experimentally determine the benefits of spin-turning infrared materials known to cause rapid wear of single-crystal, synthetic diamond cutting tools. The results explore the specific issues of maintaining satisfactory surface finish over anisotropic workpieces such as single-crystal silicon. This is demonstrated using a stiff and accurate spindle-based tool holder that is instrumented to provide feedback while cutting.

机译：本文显示了使用圆形刀片旋转脆性材料的努力结果，该圆形刀片可以旋转以为切割区域提供新的边缘。 Shaw最初提出旋转切削刀具是为了在重型车床车削过程中保持边缘锋利度。通过改进设计，他的方法已应用于精密金刚石车削。这项工作试图通过实验确定已知会引起单晶，合成金刚石切削刀具快速磨损的自旋车削红外材料的好处。结果探讨了在各向异性工件（如单晶硅）上保持令人满意的表面光洁度的具体问题。使用刚性且精确的基于主轴的刀架对此进行了证明，该刀架用于在切削时提供反馈。

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来源
《Precision Engineering》 |2010年第2期|共6页
作者
Eric R. Marsh; Edward J. Sommer; Theodore R.S. Deakyne; George A. Kim; James A. Simonson;
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正文语种 eng
中图分类计量学;
关键词
Diamond turning; Spin-turning; Silicon;

机译：金刚石车削;自旋车削;硅;

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专利

1. Detection of orientation-dependent, single-crystal diamond tool edge wear using cutting force sensors, while spin-turning silicon [J] . Eric R. Marsh, Edward J. Sommer, Theodore R.S. Deakyne, Precision Engineering . 2010,第2期

机译：旋转切削硅时，使用切削力传感器检测与方向有关的单晶金刚石刀具的边缘磨损
2. Some observations on the wear of diamond tools in ultra-precision cutting of single-crystal silicon [J] . Jiwang Yan, Katsuo Syoji, Junichi Tamaki Wear: an International Journal on the Science and Technology of Friction, Lubrication and Wear . 2003,第7a12期

机译：单晶硅超精密切削中金刚石刀具磨损的一些观察
3. Nanometer edge profile measurement of diamond cutting tools by atomic force microscope with optical alignment sensor [J] . Wei Gao, Takenori Motoki, Satoshi Kiyono Precision Engineering . 2006,第4期

机译：带有光学对准传感器的原子力显微镜的金刚石刀具纳米边缘轮廓测量
4. DETECTION OF ORIENTATION-DEPENDENT, SINGLE-CRYSTAL DIAMOND TOOL EDGE WEAR USING CUTTING FORCE SENSORS, WHILE SPIN-TURNING SILICON [C] . Eric R. Marsh, George A. Kim, James A. Simonson The Twenty-third annual meeting of the American Society of Precision Engineering and the Twelfth ICPE . 2008

机译：旋转切削硅时使用切削力传感器检测与方向有关的单晶金刚石刀具边缘磨损
5. An investigation into interface behavior and delamination wear for diamond-coated cutting tools. [D] . Lu, Ping. 2013

机译：研究金刚石涂层切削工具的界面行为和分层磨损。
6. Micro Defects on Diamond Tool Cutting Edge Affecting the Ductile-Mode Machining of KDP Crystal [O] . Shuo Zhang, Wenjun Zong 2020

机译：金刚石工具切削刃上的微缺陷影响KDP晶体的延性模式加工
7. Diamond tool wear detection method using cutting force and its power spectrum analysis in ultra-precision fly cutting [O] . Zhang GQ, To S 2014

机译：切削力的金刚石刀具磨损检测方法及其功率谱分析

Detection of orientation-dependent, single-crystal diamond tool edge wear using cutting force sensors, while spin-turning silicon

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