[1] [1] GUO W M, ZHAO M H, DONG J X, et al. Research and development in FGH95 P/M nickel based superalloy［J］. Journal of Mechanical Engineering, 2013, 49(18): 38-45.

[2] [2] ZHANG C C. Development and application of laser shock processing-A review［J］. Materials Protection, 2012, 45(7): 49-51.

[3] [3] MENG L L. Study on the difference of fatigue life under laser shock peening of different detail structures［D］. Zhenjiang: Jiangsu University，2019: 2-6.

[4] [4] SONG Y J, ZHANG S Q, WU D. Effect of laser shock peeing on surface integrity of laser additive manufactured GH1131 alloy thin-walled components［J］. Applied Laser, 2020, 40(3): 447-453.

[5] [5] WANG C G, SONG Y J, ZHU R. Numerical simulation of surface residual stress and deformation of TC17 titanium alloy under multiple laser shock peening［J］. Applied Laser, 2019, 39(3): 475-481.

[6] [6] WU J J, ZHAO J B, QIAO H C, et al. The application status and development of laser shock processing［J］. Opto-Electronic Engineering, 2018, 45(2): 170690.

[7] [7] WU J F . Research on the blades strengthening and plastic forming of wing panels based on laser shock peening technology［D］. Nanjing: Southeast University，2019.

[8] [8] CAO Z W, ZOU S K, CHE Z G. Bending deformation and surface characteristics of 2024 aluminum alloy processed by laser-induced shock wave［J］. Laser & Optoelectronics Progress, 2015, 52(12): 121405.

[9] [9] HE W F, LI Y H, NIE X F, et al. Deformation control and fatigue test of blade tenon by laser shock peening［J］. Acta Aeronautica et Astronautica Sinica, 2014, 35(7): 2041-2048.

[10] [10] MORALES M, PORRO J A, GARCA-BALLESTEROS J J, et al. Effect of plasma confinement on laser shock microforming of thin metal sheets［J］. Applied Surface Science, 2011, 257(12): 5408-5412.

[11] [11] WANG Y N, FAN Y J, VUKELIC S, et al. Energy-level effects on the deformation mechanism in microscale laser peen forming［J］. Journal of Manufacturing Processes, 2007, 9(1): 1-12.

[12] [12] ZHANG Y K, ZHANG L H, ZHOU J Z, et al. Oblique angle laser shock experiment and theoretic analyse［J］. Chinese Journal of Lasers, 2005, 32(10): 1437-1440.

[13] [13] LIU R J, ZHANG Y W, WEN C W, et al. Study on the design and analysis methods of orthogonal experiment［J］. Experimental Technology and Management, 2010, 27(9): 52-55.

[14] [14] YANG F H, LU G X, YANG Q T, et al. Research progress of laser shock treatment in the field of material forming［J］. Journal of Aeronautical Materials, 2018, 38(6): 1-10.

[15] [15] QIAO H C, ZHAO Y X, ZHAO J B, et al. Effect of laser peening on microstructures and properties of TiAl alloy［J］. Optics and Precision Engineering, 2014, 22(7): 1766-1773.

[16] [16] WANG C C . Experiment and simulation analysis on laser peening convex forming of 2024-T351 aluminium alloy sheet［D］. Zhenjiang: Jiangsu University, 2018: 38-41.

[17] [17] YE Y X, NIE Z, HUANG X, et al. An analytical model for estimating the bending curvatures of metal sheets in laser peen forming［J］. Materials (Basel, Switzerland), 2021, 14(2): 462.