Parameters Optimization of the Ultrasonic External Cylindrical Lapping Process for Nano ZTA Engineering Ceramics Using Response Surface Methodology

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Aimed at the precision machining characteristics of nano ZTA engineering ceramics external cylindrical components, ultrasonic aided lapping experiments were carried out adopting inhouse developed ultrasonic external cylindrical lapping device with solid abrasive material. To obtain minimum surface roughness with constraint of the material removal rate, response surface methodology (RSM) was adopted to analyze the experimental data, and suitable experiment design was chosen to fit the response surface in this research. Second-order surface response models of surface roughness and material removal rate were developed respectively, and the influence laws of lapping parameters on surface roughness and material removal rate were clarified according to the built models. Finally, parameters optimization of the ultrasonic external cylindrical lapping process for nano ZTA engineering ceramics was realized using surface response methodology.

Info:

Periodical:

Key Engineering Materials (Volumes 364-366)

Edited by:

Guo Fan JIN, Wing Bun LEE, Chi Fai CHEUNG and Suet TO

Pages:

733-738

Citation:

F. Jiao et al., "Parameters Optimization of the Ultrasonic External Cylindrical Lapping Process for Nano ZTA Engineering Ceramics Using Response Surface Methodology", Key Engineering Materials, Vols. 364-366, pp. 733-738, 2008

Online since:

December 2007

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$38.00

[1] S.Y. Yu, B. Lin and B. Lin: Diamond & Abrasives Engineering, Vol. 124 (2001), p.36.

[2] J. Kang and M. Hadfield: Wear, Vol. 258 (2005), p.2.

[3] X. Wang and K.N. Kang: Acta Materiae Compositae Sinica, Vol. 16 (1999), p.105.

[4] F. Jiao, B. Zhao, C.S. Liu and G.F. Gao: Key Engineering Materials, Vol. 258-259 (2004), p.297.

[5] S. Malkin, T.W. Hwang: Annals of the CIRP, Vol. 45(1996), p.569.

[6] J.D. Yang and C.L. Tian: High speed lapping technology (Defence Industry Press, China 2004).

[7] H. Oktem, T. Erzurumlu and H. Kurtaran, Int J. Mate. Proc. Tech., Vol. 170 (2005), p.11.

[8] J.S. Kwak, S.B. Sim and Y. D. Jeong: Int J. Mach. Tools & Manufact. Vol. 46 (2006), p.304.

[9] Marzieh Nouri, Jalil Morshedian et al.: Iranian Polymer Journal, Vol. 15 (2006), p.155.