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Rotary ultrasonic machining of optical K9 glass using compressed air as coolant: a feasibility study

机译：使用压缩空气作为冷却剂对光学K9玻璃进行旋转超声加工：可行性研究

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Optical K9 glass has been used in a variety of applications, including optics, electronics, thermodynamics, and fluidics. It has been regarded as a difficult-to-cut material because of its superior mechanical properties. Rotary ultrasonic machining (RUM) using cutting fluid has been used successfully to machine many different types of brittle materials, such as ceramics, sapphire, and optical K9 glass. Dry machining has been successfully employed in the machining of some materials. However, there are no reported investigations on the RUM of optical K9 glass using compressed air as a coolant. This paper, for the first time, investigates the RUM of optical K9 glass using compressed air as a coolant. The experimental investigations focus on the effects of the input variables (ultrasonic power, spindle speed, and feedrate) on the output variables (edge chipping size, cutting force, surface roughness, and ultrasonic power consumption).

机译：光学K9玻璃已用于多种应用，包括光学，电子，热力学和流体学。由于其优越的机械性能，它被认为是难以切割的材料。使用切削液的旋转超声加工（RUM）已成功用于加工许多不同类型的脆性材料，例如陶瓷，蓝宝石和光学K9玻璃。干式加工已成功地用于某些材料的加工中。但是，没有关于使用压缩空气作为冷却剂的光学K9玻璃的RUM的研究报告。本文首次研究了使用压缩空气作为冷却剂的光学K9玻璃的RUM。实验研究集中于输入变量（超声波功率，主轴转速和进给速度）对输出变量（切屑尺寸，切削力，表面粗糙度和超声功率消耗）的影响。

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Zhang Chenglong; Cong Weilong; Feng Pingfa; Pei Zhijian J.;
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年度 2014
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1. Rotary ultrasonic machining of optical K9 glass using compressed air as coolant: A feasibility study [J] . Chenglong Zhang, Weilong Cong, Pingfa Feng, Proceedings of the Institution of Mechanical Engineers, Part B. Journal of engineering manufacture . 2014,第4期

机译：使用压缩空气作为冷却剂对光学K9玻璃进行旋转超声加工：可行性研究
2. EXPERIMENTAL STUDY ON THE CUTTING FORCE DIFFERENCE BETWEEN ROTARY ULTRASONIC MACHINING AND CONVENTIONAL DIAMOND GRINDING OF K9 GLASS [J] . Chun-Yang Zhao, Hu Gong, Feng Zhou Fang, Machining Science and Technology . 2013,第1a2期

机译：旋转超声加工与常规金刚石磨K9玻璃切削力差异的实验研究
3. Rotary ultrasonic machining of CFRP using cold air as coolants feasible regions [J] . W.L. Cong, Z.J. Pei, T.W. Deines Journal of Reinforced Plastics and Composites . 2011,第10期

机译：使用冷空气作为冷却剂的CFRP旋转超声波加工可行区域
4. SURFACE GRINDING OF OPTICAL BK7/K9 GLASS USING ROTARY ULTRASONIC MACHINING: AN EXPERIMENTAL STUDY [C] . Yingbin Hu, Hui Wang, Fuda Ning, ASME international manufacturing science and engineering conference . 2017

机译：旋转超声机加工光学BK7 / K9玻璃的表面研磨：实验研究
5. Study on the Optimization and Process Modeling of the Rotary Ultrasonic Machining of Zerodur Glass-Ceramic [D] . Pitts, James Daniel 2014

机译：Zerodur微晶玻璃旋转超声加工的优化与工艺建模研究
6. Multi-Response Optimization of Processing Parameters for Micro-Pockets on Alumina Bioceramic Using Rotary Ultrasonic Machining [O] . Basem M. A. Abdo, Hisham Alkhalefah, Khaja Moiduddin, 2020

机译：用旋转超声加工处理氧化铝生物橡皮虫微口袋处理参数的多响应优化
7. Rotary ultrasonic machining of CFRP using cold air as coolant: feasible regions [O] . Cong W. L., Pei Zhijian J., Deines Timothy W., 2011

机译：使用冷空气作为冷却剂的CFRP旋转超声加工：可行区域
8. Feasibility Study for Ductile Machining of Glass. Final Report January 1, 1979-September 30, 1979 [R] . Finnie, I., Giovanola, J., Misra, A., 1979

机译：玻璃球墨铸铁加工可行性研究。最终报告1979年1月1日至1979年9月30日

Rotary ultrasonic machining of optical K9 glass using compressed air as coolant: a feasibility study

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