Reducing forces during drilling brittle hard materials by using ultrasonic and variation of coolant

Optical Angular Momentum Pub Date : 2016-11-11 DOI:10.1117/12.2257106

C. Schopf, R. Rascher

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Abstract

The process of ultrasonic machining is especially used for brittle hard materials as the additional ultrasonic vibration of the tool at high frequencies and low amplitudes acts like a hammer on the surface. With this technology it is possible to drill holes with lower forces, therefor the machining can be done faster and the worktime is much less than conventionally. A three-axis dynamometer was used to measure the forces, which act between the tool and the sample part. A focus is set on the sharpness of the tool. The results of a test series are based on the Sauer Ultrasonic Grinding Centre. On the same machine it is possible to drill holes in the conventional way. Additional to the ultasonic Input the type an concentration of coolant is important for the Drilling-force. In the test there were three different coolant and three different concentrations tested. The combination of ultrasonic vibration and the right coolant and concentration is the best way to reduce the Forces. Another positive effect is, that lower drilling-forces produce smaller chipping on the edge of the hole. The way to reduce the forces and chipping is the main issue of this paper.

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利用超声波和不同冷却剂降低脆性硬材料钻孔时的受力

超声加工特别适用于脆性硬材料，因为刀具在高频率和低振幅的附加超声振动就像锤子一样作用于表面。有了这种技术，可以用较低的力钻孔，因此加工速度更快，工作时间比传统方法少得多。用三轴测力仪测量作用在刀具和试样之间的力。焦点设置在工具的锐度上。一系列的测试结果是基于绍尔超声磨削中心。在同一台机器上，可以用传统的方法钻孔。除了超声波输入外，冷却剂的类型和浓度对钻井力也很重要。在测试中有三种不同的冷却剂和三种不同的浓度。超声波振动与适当的冷却剂和浓度相结合是减少力的最佳方法。另一个积极的影响是，较低的钻井力在井眼边缘产生较小的切屑。如何减小受力和切屑是本文研究的主要问题。

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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Optical Angular Momentum

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