[1]
S.Bortz, in: Reliability of ceramics for heat engine applications, Publication NMAB-357, National academy of sciences, Washington, D.C. (1980)
Google Scholar
[2]
J. Barta: Proceeds of 16th symposium of electromagnetic windows, (1982), p.87
Google Scholar
[3]
J. Barta, M. Manela: Material science and engineering, Vol. 71 (1985), p.265
Google Scholar
[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)
Google Scholar
[5]
K.A.O. Honjo: ASME journal of engineering for gas turbines and power, Vol. 115(1), (1993)
Google Scholar
[6]
J.C. Brice: Rev. Mod. Phys, Vol. 57, (1985), p.105
Google Scholar
[7]
A. Ballato: IEEE Transactions on Ultrasonics Ferroelectrics and Frequency Control, Vol. 41(6) (1994), p.834
Google Scholar
[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)
Google Scholar
[9]
F.Z. Fang, Advances in micro manufacturing (keynote speech), Tsukuba, Japan: TMMF2005 (2005-10-17)
Google Scholar
[10]
S. Bortz, in: Reliability of ceramics for heat engine applications, Washington, D.C.: Publication NMAB-357, National academy of sciences (1980)
Google Scholar
[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)
Google Scholar
[12]
J. Barta: Proceeds of 16th symposium of electromagnetic windows (1982), p.87
Google Scholar
[13]
J.C. Brice: Rev. Mod. Phys., Vol. 57 (1985), p.105
Google Scholar
[14]
Z.J. Pei, P.M. Ferreira, M. Haselkorn: Journal of Materials Processing Technology, Vol. 48 (1995), p.771
Google Scholar
[15]
D.C. Kennedy, R.J. Grieve: The production engineer,Vol. 54(9) (1975), p.481
Google Scholar
[16]
K. Egashira, T. Masuzawa: Annals of the CIRP, Vol. 48 (1999) p.131
Google Scholar
[17]
J.A. McGeough, in: Advanced methods of machining, Chapman and Hall, ISBN 0412319705 (1988)
Google Scholar
[18]
P. Legge: Ultrasonic, Vol. 4(7) (1966), p.157
Google Scholar
[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)
Google Scholar
[20]
S.Y. Yu, T. Dian, B. Lin, Chinese Patent 01205966.8, (2001)
Google Scholar
[21]
M. Wiereigroch, J. Wojewoda, A.M. Krivtsov: Journal of sound and vibration, Vol. 15(2) (2004), p.187
Google Scholar
[22]
L.P. Liu: Doctoral dissertation, Tianjin University, Tianjin, (2011) (In Chinese)
Google Scholar
[23]
T. Nakagawa, K. Suzuki, T. Uematsu: Annals of the CIRP, Vol. 37(1) (1988), p.319
Google Scholar
[24]
C.L. Chen: Electrical Processing, Vol. 1 (1992), p.31 (In Chinese)
Google Scholar
[25]
K. Adrian et al: Liechtenstein Patent 01119003.5, (2001)
Google Scholar
[26]
Osamu Kubota et al: Japanese Patent 200680024192, (2008)
Google Scholar
[27]
Y. Zhou, L.C. Li et al: Chinese Patent, 200720032813.4, (2008)
Google Scholar
[28]
H. Ni: Master Dissertation, Tianjin University, Tianjin, (2009) (In Chinese)
Google Scholar