[1] |
van SPENGEN W M,ROBERTS P,ROBERT M,et al.A low frequency electrical test setup for the reliability assessment of capacitive RF MEMS switches[J].Journal of Micromechanics and Microengineering,2003,13(5):604-612. |
[2] |
ZHANG W W,YAO Y L.Microscale laser shock processing of metallic components[J].ASME Journal of Manufacturing Science and Engineering,2002,124(2):369-378. |
[3] |
YU Z L,GAO Ch Y,ZENG D Y,et al.Study of the surface qualities of laser shock processing zones using an artificial neural network[J].Laser Technology,2001,25(1):1-6(in Chinese). |
[4] |
WANG F,YAO Zh Q.Expermental research of laser shock processing brass[J].Laser Technology,2006,30(5):511-513(in Chinese). |
[5] |
SPEARING S M.Materials issues in micro electro mechanical systems(MEMS)[J].Acta Materialia,2000,48(1):179-196. |
[6] |
QIAN J,ZHAO Y P.Materials selection in mechanical design for microsensors and microactuators[J].Materials and Design,2002,23(7):17-19. |
[7] |
ZHOU N,QIAO D J.Material dynamics under pulse beam radiation[M].Beijing:National Defence Industry Press,2002:52-73(in Chinese). |
[8] |
LINDHOLM U S.Techniques in Metals Research[M].New York:Inter science press,1971:178-181. |
[9] |
ZHANG W W,YAO Y L,NOYAN I C.Microscale laser shock peening of thin films,part1:experiment,modeling and simulation[J].ASME Journal of Manufacturing Science and Engineering,2004,126(1):10-17. |
[10] |
FABBRRO R,FOURNIER J,BALLARD P,et al.Physical study of laser-produced plasma in confined geometry[J].Jounal of Applied Physics,1990,6(2):775-784. |
[11] |
ZHANG W W,YAO Y L.Improvement of laser induced residual stress distributions via shock waves[M].New York:ICALEO,2000:183-192. |
[12] |
ZHANG W W,YAO Y L.Modeling and simulation improvement in laser shock processing[J].New York:ICALEO,2001:221-223. |
[13] |
VOGEL A,BUSCH S,PARLITZ U.Shock wave emission and cavitation bubble generation by picosecond and nanosecond optical breakdown in water[J].J Acoust Soc Amer,1996,100(1):148-165. |