[1] . Momentum transfer and cratering effects produced by giant laser pulses[J]. Appl. Phys. Lett., 1964, 4(9): 167-169.

[2] . C. Anderholm. Laser-generated stress waves[J]. Appl. Phys. Lett., 1970, 16(3): 113-115.

[3] . D. O′Keefe,C. H. Skeen,C. M. York. Laser-induced deformation modes in thin metal targets[J]. J. Appl. Phys., 1973, 44(10): 4622-4626.

[4] . A. Meyers,F. Gregori,B. K. Kad et al.. Plastic deformation in laser-induced shock compression of monocrystalline copper[J]. AIP Conf. Proc., 2002, 620(1): 619-622.

[5] Hackel Lloyd,Harris Fritz. Contour forming of metals by laser peening[P]. U. S. 6410884,2002-06-25

[6] Hackel Lloyd,Haolin Chen. Laser peening-a processing tool to strength metals or alloys to improve fatigue lifetime and retard stress-induced corrosion cracking[R]. Laser Science and Technology,2003

[7] . 基于激光冲击波的板料塑性成形新技术[J]. 中国机械工程, 2002, 13(22): 1938-1940.

    . . A new technique on plastic forming of metal sheet by laser shock wave[J]. China Mechanical Engineering, 2002, 13(22): 1938-1940.

[8] Jianzhong Zhou,Yujie Fan,Shu Huang et al.. Numerical simulation on laser peen forming of sheet metal [C]. Mater. Sci. Forum,2008,575/578(Part 1):572-578

[9] Huang Shu,Zhou Jianzhong,Chen Yibin et al.. Theoretical and experimental study on laser compound forming of plate [J]. Key Eng. Mater.,2008,375-376:343-347

[10] M. Geiger,F. Meyer-Pittroff. Laser beam bending of metallic foils[C]. SPIE,2002,4426:187-190

[11] . Fan,Y. Wang,S. Vukelic et al.. Wave-solid interactions in laser shock induced deformation processes[J]. J. Appl. Phys., 2005, 98(10): 104904.

[12] . Wang,Y. Fan,S. Vukelic et al.. Energy level effects on deformation mechanism in micro-scale laser peen forming[J]. SME J. Manuf. Process., 2007, 9(1): 1-12.

[13] . Wang,J. W. Kysar,Y. L. Yao. Analytical solution of anisotropic plastic deformation induced by micro-scale laser shock peening[J]. Mechanics of Mater., 2008, 40: 100-114.

[14] . Cheng,Daniel Pirzada,Zhou Ming. Microstructure and mechanical property characterizations of metal foil after microscale laser dynamic forming[J]. J. Appl. Phys., 2007, 101(6): 063108.

[15] . Schulze Niehoff,Z. Hu,F. Vollertsen. Mechanical and laser micro deep drawing[J]. Key Eng. Mater., 2007, 344: 799-806.

[16] K. R. Edwards,G. Dearden,K. G. Watkins et al.. Laser peen forming of thin sheet ferrous materials[C]. Photon ′06 Conference,Institute of Physics,Manchester,2006

[17] . ,Bhumika Lathia. Laser forming by shock peening[J]. Transactions of NAMRI/SME, 2007, 35: 401-407.

[18] . L. Ocaa,M. Morales,C. Molpeceres et al.. Laser shock microforming of thin metal sheets[J]. Appl. Surf. Sci., 2009, 225(10): 5633-5636.

[19] K. Okada,K. Wakabayashi,H. Takenaka. Experimental technique for launching miniature flying plates using laser pulses[J]. Int. J. Impact Eng.,2003,29(1/10):497-502

[20] 王霄,杨昆,刘会霞 等. 激光驱动飞片加载金属箔板成形的加载机制[J]. 中国激光,2009,36(6):1569-1574

    Wang Xiao,Yang Kun,Liu Huixia et al.. Loading mechanism of metal foil forming under laser driven flyer[J]. Chinese J. Lasers,2009,36(6):1569-1574

[21] Boeing awards MIC laser peening contract to form 747.8 wing section[EB/OL]. (2008-01-14)[2008-01-14]

[22] K. Kondo,S. Tsuzuki,A. Kato. Investigations on peen forming (2nd Report;on the forming mechanism)[C]. Conf. Proc.,ICSP-1,1981. 565-572

[23] . L. Ocaa,M. Morales,C. Molpeceres et al.. Short pulse laser microforming of thin metal sheets for MEMS manufacturing[J]. Appl. Surf. Sci., 2007, 254: 991-1001.

[24] . Non-thermal micro adjustment using ultrashort laser pulses[J]. J. Laser Micro/Nanoeng., 2007, 2(3): 183-188.

[25] Kenneth Edwards,Stuart P. Edwardson,Chris Carey et al.. Laser peen forming for 2D shaping and micro adjustment [C]. ICALEO,2007. 156-165

[26] 周建忠,张永康,周明 等. 单次激光冲击下板料变形的理论分析[J]. 中国激光,2005,32(1):135-138

    Zhou Jianzhong,Zhang Yongkang,Zhou Ming et al.. Theoretical analysis on deformation of sheet metal under one laser shot loading[J]. Chinese J. Lasers,2005,32(1):135-138

[27] H. Schulze Niehoff,F. Vollertsen. Non-thermal laser stretch-forming [J]. Adv. Mater. Res.,2005,6-8:433-440

[28] Gary J. Cheng,Daniel Pirzada. Characterizations on microscale laser dynamic forming of metal foil [C]. ASME International Conference on Manufacturing Science and Engineering,2006. 1-7

[29] . On the acting pressure in laser deep drawing[J]. Prod. Eng., 2009, 3(1): 1-8.

[30] Gary J. Cheng. System and method of laser dynamic forming[P]. US0039933,2007-02-22

[31] 顾永玉,张兴权,史建国 等. 激光半模冲击成形中板料反向变形现象研究[J]. 激光技术,2008,32(1):95-97

    Gu Yongyu,Zhang Xingquan,Shi Jianguo et al.. Investigation of inverse deforma tion in laser shock forming with half die[J]. Laser Technology,2008,32(1):95-97

[32] L. Vihtonen,A. Puzik,T. Katajarinne. Comparing two robot assisted incremental forming methods:incremental forming by pressing and incremental hammering[J]. Int. J. Mater. Forming,2008,1(S1):1207-1210

[33] Andrew S. Holmes. Laser fabrication and assembly processed for MEMS[C]. SPIE,2001,4274:297-306

[34] . Vollertsen,H. Schulze Niehoff. State of the art in micro forming[J]. Int. J. Machine Tools Manuf., 2006, 46(11): 1172-1179.

[35] . Montross,Tao Wei,Lin Ye. Laser shock processing and its effects on microstructure and properties of metal alloys:a review[J]. Int. J. Fatigue, 2002, 24(10): 1021-1036.

[36] . M. Korsunsky. On the modeling of residual stresses due to surface peening using eigenstrain distributions[J]. J. Strain Anal., 2005, 40(8): 817-824.

[37] . Lawrence,I. C. Noyan. Microscale laser shock peening of thin films,part 1:experiment,modeling and simulation[J]. J. Manuf. Sci. Eng., 2004, 126(2): 10-17.

[38] . Fabbro,J. Fournier,P. Ballard et al.. Physical study of laser produced plasma in confined geometry[J]. J. Appl. Phys., 1990, 68(2): 775-784.

[39] 周建忠,倪敏雄,张永康 等. 金属板料激光喷丸成形理论研究与数值模拟[J]. 中国激光,2007,34(2):288-294

    Zhou Jianzhong,Ni Minxiong,Zhang Yongkang et al.. Theoretical investigation and finite element simulation of laser peen forming of metal plate[J]. Chinese J. Lasers,2007,34(2):288-294

[40] K. R. Edwards,C. Garey,S. P. Edwrdson et al.. Laser peen forming for 2D shaping and adjustment of metallic components[C]. LANE,2007. 569-580

[41] . Ultrashort pulse laser bending[J]. J. Laser Micro/Nanoengineering, 2006, 1(1): 54-60.

[42] . J. Cheng,M. A. Shehadeh. Dislocation behavior in silicon crystal induced by laser shock peening:a multiscale simulation approach[J]. Scripta Materialia, 2005, 53(9): 1013-1018.

[43] . Kysar et al.. Microscale laser peen forming of single crystal[J]. J. Appl. Phys., 2008, 103(6): 063525.

[44] . Kysay et al.. Response of thin films and substrate to micro scale laser shock peening[J]. J. Manuf. Sci. Eng., 2007, 129(3): 485-496.

[45] . et al.. Advances in microscale laser shock peening[J]. Tsinghua Science and Technology, 2004, 9(5): 506-518.

[46] . A simple analysis model for the hypervelocity cratering of semi-infite targets by projectile[J]. Int. J. Impact Eng., 1999, 23(1): 989-994.

[47] Benxin Wu,Yung C. Shin. From incident laser pulse to residual stress:a complete and self-closed model for laser shock peening[C]. ASME International Conference on Manufacturing Science and Engineering,2006. 1-12

[48] . M.. On the modeling of residual stresses due to surface peening using eigenstrain distributions[J]. J. Strain Analysis, 2005, 40(8): 817-824.

[49] . Kysar et al.. Dynamic material response of aluminum single crystal under micro scale laser shock peening[J]. J. Manuf. Sci. Eng., 2009, 131(3): 031015-031024.

[50] . Wang,Z. Q. Yao,J. Hu et al.. Experimental research and numerical simulation of laser shock forming of TA2 titanium sheet[J]. Acta Metallurgica Sinica (English Letters), 2006, 19(5): 347-354.

[51] Abul Fazal M. Arif. Numerical prediction of plastic deformation and residual stresses induced by laser shock processing[J]. J. Mater. Process. Technol.,2003,136(1-3):120-138

[52] Yuji Sano,Naruhiko Mukai,Koki Okazaki et al.. Residual stress improvement in metal surface by underwater laser irradiation[J]. Nucl. Instrum. Methods Phys. Res.,1997,B121(1-4):432-436

[53] G. R. Johnson,W. H. Cook. A constitutive model and date for metal subjected to large strains,high strain rates and high temperatures[C]. International Symposium on Ballistics,The Hague,The Netherlands,1983

[54] . Kysar et al.. Microscale laser pee forming of single crystal:dynamic deformation and anisotropy[J]. Trans. NAMRI/SME, 2007, 35: 383-390.

[55] Y. Huang. A user-material subroutine incorporating single crystal plasticity in the ABAQUS finite element program,Mech. Report 178[R]. Division of Applied Sciences,Harvard University,Cambridge,MA,1991

[56] J. W. Kysar. Addendum to A User-Material Subroutine Incorporating Single Crystal Plasticity in the ABAQUS Finite Element Program,Mech Report 178[R]. Division of Engineering and Applied Sciences,Harvard University,Cambridge,MA,1997

[57] . Savage,B. P. O. Donnell,P. E. McHugh et al.. Coronary stent strut size dependent stress-strain response investigated using micromechanical finite element models[J]. Ann. Biomed. Eng., 2004, 32(2): 202-211.

[58] J. L. Ocaa,M. Morales,C. Molpeceres et al.. Numerical modeling and experimental characterization of short pulse laser microforming of thin metal sheets[C]. Multi-Materical Micro Manufacture,Dimov S and Menz W (Eds.),Cardiff,UK,Whittles Publishing Ltd. 2008. 1-4

[59] . Veloso,H. Chuaqui. Laser-produced annular plasmas[J]. Rev. Sci. Instrum., 2006, 77(6): 063506.

[60] . Sasoh,T. Ohtani,K. Mori. Pressure effect in a shock-wave-plasma interaction induced by a focused laser pulse[J]. Phys. Rev. Lett., 2006, 97(20): 205004.

[61] . P. Fairand,A. H. Clauer. Laser generation of high-amplitude stress waves in materials[J]. J. Appl. Phys., 1979, 50(3): 1497-1502.

[62] . Laser-induced vibration during pulsed laser forming[J]. Opt. Laser Technol., 2004, 36(6): 431-439.

[63] . Temperatures,pressures and strsses during laser shock processing[J]. Opt. Lasers Eng., 2003, 39(1): 51-71.

[64] . Shin. A self-closed thermal model for laser shock peening under the water confinement regime configuration and comparisons to experiments[J]. J. Appl. Phys., 2005, 97(11): 113517.

[65] David A. Gonzales,Robert P. Baker. Micropropulsion using a Nd∶YAG microchip laser[C]. SPIE,2002,4760:752-765

[66] 刘晶,刘韧,季忠 等. 基于晶粒晶界有限元的激光微冲击成形数值分析[J]. 中国激光,2010,37(1):291-295

    Liu Jing,Liu Ren,Ji Zhong et al.. Numerical analysis for micro laser peen forming based on grain and grain boundary element[J]. Chinese J. Lasers,2010,37(1):291-295

[67] . Juodkazis,K. Nishimura,S. Tanaka et al.. Laser-induced microexplosion confined in the bulk of a sapphire crystal:evidence of multimegabar pressures[J]. Phys. Rev. Lett., 2006, 96(16): 166101.

[68] . Geiger,R. Plettke,H. Hagenah. Multi-objective optimization of actuator system design for laser micro adjustment[J]. Prod. Eng., 2009, 3(2): 181-188.