@inproceedings{b2c21869c8044ff581c03f8b076bcb2c,
title = "Diamond tool wear reduction by combining ultrasonic elliptical vibration with graphite particle atmosphere",
abstract = "For reducing diamond tool wear in ultra-precision cutting of ferrous metals, a process of combining ultrasonic elliptical vibration with graphite particle atmosphere was put forward. An experimental setup was built integrating an ultrasonic elliptical vibration mechanism with a jet lubrication device on a 4-axis ultra-precision lathe. The frequency of ultrasonic elliptical vibration is 38.36 kHz with a trajectory of 8.5×3.5μm. Graphite particles with sizes of 1.3∼2μm were selected. Conventional cutting and the combined method were conducted on die steel. Compared with conventional cutting with a wear land width of about 300μm, diamond tool wear in the combined method was decreased to about 20 to 30μm. The combined method is feasible to further reduce the diamond tool wear when cutting die steel.",
keywords = "Diamond cutting tool, Die steel, Graphite particle atmosphere, Ultra-precision cutting, Ultrasonic elliptical vibration",
author = "Xing Gao and Li, {Chao Jiang} and Yong Li and Duong, {Cam Vinh}",
note = "Publisher Copyright: {\textcopyright} (2014) Trans Tech Publications, Switzerland.; 10th CHINA-JAPAN International Conference on Ultra-Precision Machining Process, 10th CJUMP and 2014 International Conference on Surface Finishing Technology, ICSFT 2014 ; Conference date: 17-10-2014 Through 19-10-2014",
year = "2014",
doi = "10.4028/www.scientific.net/AMR.1027.32",
language = "English",
series = "Advanced Materials Research",
publisher = "Trans Tech Publications Ltd.",
pages = "32--35",
editor = "Bo Zhao and Guofu Gao and Hang Gao and Bo Zhao and Guofu Gao and Yanyan Yan and Hang Gao and Yanyan Yan",
booktitle = "Ultra-Precision Machining Process and Surface Finishing Technology",
address = "Switzerland",
}