Study on the Material Removal Rate of Nano-ZrO2 Ceramics under Ultrasonic Vibration Assisted Diamond Fly-Cutting


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According to the removal mechanism of ductile regime machining of nanoZrO2 ceramics and the dynamic characteristics of ultrasonic vibration assisted diamond flying cutting (UVADFC), the model of the material removal rate (MRR) of nanoZrO2 ceramics under UVADFC and diamond flying cutting (DFC) have been proposed by infinitesimal method,. In this paper, the experiment of three factors and four levels was carried out to study the relationships between MRR and the machining parameters (cutting depth , spindle speed n and feed rate c). The results of the experiment shows that UVADFC is a cost-effective method which is applied to the machining of nanoZrO2 ceramics, and the MRR of nanoZrO2 ceramics under UVADFC is 1.3-2 times greater than that of DFC, and the degree of the factors significantly influence on the MRR of nanoZrO2 ceramics are feed rate, cutting depth, spindle speed in a sequence whether it is DFC or UVADFC. The results will shed more light on the material removal mechanism of UVADFC.



Edited by:

Xiao Hong Zhu, Wenlong Cheng and Li Lu




Y. Y. Yan et al., "Study on the Material Removal Rate of Nano-ZrO2 Ceramics under Ultrasonic Vibration Assisted Diamond Fly-Cutting", Materials Science Forum, Vol. 932, pp. 30-35, 2018

Online since:

September 2018




* - Corresponding Author

[1] Autschbach L, Brinksmeier E, Preu W, et al. J. HTM - Haerterei-Technische Mitteilungen. 60 (2005) 183-189.

[2] Y. Liu, Q.Z. Yi, Y. S. Li, J. Journal of national defense technology university. 2 (2014) 175-180.

[3] L.Q. Zhao, et al. J. Optical precision engineering. 17 (2009) 2512-2519.

[4] Y.Y. Yan, R.X. Wang, B. Zhao, J. China Mechanical Engineering. 27 (2016) 507-512.

[5] Y.Y. Yan, B. Zhao, J.L. Liu, J.the international journal of advanced manufacturing technology. 43 (2009) 462-467.

[6] Shamoto, E. Suzuki, N, J. Advanced Materials Research, 69 (2009) 133-137.

[7] Bifano T G, Dow T A, Scattergood R O, Ductile-Regime Grinding: A New Technology for Machining Brittle Materials, J. Journal of Engineering for Industry. 113 (1991) 184-189.


[8] X.J. Zheng, W.J. Xu, B.Z. Lv, J. Journal of Chinese Ceramic Society. 34 (2006) 102-106.

[9] K.X. Shi, L. Teng, et al, J. Aviation Precision Manufacturing Technology. 4 (1996) 10-13.

[10] Y.P. Bian, Rearch on nonlocal constitutive relation of Nano-composite ceramics and ductile regime grinding mechanism under ultrasonic excitation, D. Henan Polytechnic University. (2012).