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HomeApplied Mechanics and MaterialsApplied Mechanics and Materials Vols. 268-270Review on the Development of the Accessory Rotary...

Review on the Development of the Accessory Rotary Ultrasonic Machining Tools

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Abstract:

Rotary ultrasonic machining(RUM) as a precise and efficient processing method for hard and brittle materials can be used for significantly improving processing efficiency, reducing the cutting force and cutting heat, improving the surface quality. Development of high performance RUM machine tools and equipments has been caused on widespread attention from the worldwide scholars. In this paper, the development of the RUM machine tools has been reviewed about the accessory RUM head and load matching system.

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Periodical:

Applied Mechanics and Materials (Volumes 268-270)

Pages:

1464-1468

DOI:

https://doi.org/10.4028/www.scientific.net/AMM.268-270.1464

Citation:

Cite this paper

Online since:

December 2012

Authors:

Xue Ming Zhu, Bin Lin, Li Ping Liu

Keywords:

Brittle Material, Hard Material, Load Matching System, Machine Tool Accessory, Rotary Ultrasonic Machining

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[1] S.Bortz, in: Reliability of ceramics for heat engine applications, Publication NMAB-357, National academy of sciences, Washington, D.C. (1980)

[2] J. Barta: Proceeds of 16th symposium of electromagnetic windows, (1982), p.87

[3] J. Barta, M. Manela: Material science and engineering, Vol. 71 (1985), p.265

[4] H.E. Helms, P.J. Haley: Proceedings of third international symposium on ceramic materials and components for engines, Las Vegas, NV, Nov. 27-30 (1988)

[5] K.A.O. Honjo: ASME journal of engineering for gas turbines and power, Vol. 115(1), (1993)

[6] J.C. Brice: Rev. Mod. Phys, Vol. 57, (1985), p.105

[7] A. Ballato: IEEE Transactions on Ultrasonics Ferroelectrics and Frequency Control, Vol. 41(6) (1994), p.834

[8] J.R. Davis, in: Handbook of materials for medical devices, Printed in the United States of America ISBN: 0-87170-790-X: ASM International Materials Park, (2003)

[9] F.Z. Fang, Advances in micro manufacturing (keynote speech), Tsukuba, Japan: TMMF2005 (2005-10-17)

[10] S. Bortz, in: Reliability of ceramics for heat engine applications, Washington, D.C.: Publication NMAB-357, National academy of sciences (1980)

[11] H.E. Helms, P.J. Haley: Proceedings of third international symposium on ceramic materials and components for engines, Las Vegas, NV, Nov.2730 (1988)

[12] J. Barta: Proceeds of 16th symposium of electromagnetic windows (1982), p.87

[13] J.C. Brice: Rev. Mod. Phys., Vol. 57 (1985), p.105

[14] Z.J. Pei, P.M. Ferreira, M. Haselkorn: Journal of Materials Processing Technology, Vol. 48 (1995), p.771

[15] D.C. Kennedy, R.J. Grieve: The production engineer,Vol. 54(9) (1975), p.481

[16] K. Egashira, T. Masuzawa: Annals of the CIRP, Vol. 48 (1999) p.131

[17] J.A. McGeough, in: Advanced methods of machining, Chapman and Hall, ISBN 0412319705 (1988)

[18] P. Legge: Ultrasonic, Vol. 4(7) (1966), p.157

[19] G.L. Fan, W.X. Zhang, B.W. Hou: The fifth national electric processing academic conference proceedings (special processing papers and comprehensive papers), Zhejiang province: Special Processing Branch of Chinese Mechanical Engineering Society, (1986), p.140 (In Chinese)

[20] S.Y. Yu, T. Dian, B. Lin, Chinese Patent 01205966.8, (2001)

[21] M. Wiereigroch, J. Wojewoda, A.M. Krivtsov: Journal of sound and vibration, Vol. 15(2) (2004), p.187

[22] L.P. Liu: Doctoral dissertation, Tianjin University, Tianjin, (2011) (In Chinese)

[23] T. Nakagawa, K. Suzuki, T. Uematsu: Annals of the CIRP, Vol. 37(1) (1988), p.319

[24] C.L. Chen: Electrical Processing, Vol. 1 (1992), p.31 (In Chinese)

[25] K. Adrian et al: Liechtenstein Patent 01119003.5, (2001)

[26] Osamu Kubota et al: Japanese Patent 200680024192, (2008)

[27] Y. Zhou, L.C. Li et al: Chinese Patent, 200720032813.4, (2008)

[28] H. Ni: Master Dissertation, Tianjin University, Tianjin, (2009) (In Chinese)