[1] Liu Feng, Wang Yuechen, Zhang Hui, et al. Thermal-mechanical fatigue behavior of Ni-base superalloy K417[J].Journal of Materials Engineering, 2000(11): 32-37. (in Chinese)
[2] Li Chonghe, Zhu Ming, Wang Ning, et al. Application of Titanium alloy in the plane[J]. Chinese Journal of Rare Metals, 2009, 33(1): 84-91. (in Chinese)
[3] Ma Zhuang, Li Yinghong, Ren Xudong, et al. Strengthening of aerial aluminum alloy with laser shock peening[J].Materials for Mechanical Engineering, 2007, 31(8): 32-34. (in Chinese)
[5] Zhang Wenwu, Lawrence Yao Y. Micro-scale laser shock processing of metallic components[J]. J Manufact Sci Engng, 2002, 124(2): 369-378.
[6] Sano Yuji, Obata Minoru, Kubo Tatsuya, et al. Retardation of crack initiation and growth in austenitic stainless steels by laser peening without protective coating[J]. Materials Science and Engineering A, 2006, 417: 334-340.
[7] Li Wei, Li Yinghong, He Weifeng, et al. Effects of laser shock processing on the fatigue life of nickel-based superalloy[J]. New Technology & New Process, 2008(8): 70-72. (in Chinese)
[8] Li Wei, Li Yinghong, He Weifeng, et al. Development and application of laser shock processing[J]. Laser and Optoelectronics Progress, 2008(8): 70-72. (in Chinese)
[9] Ocan J L, Morales, Molpeceres, et al. Numerical simulation of surface deformation and residual stresses fields in laser shock processing experiments[J]. Applied Surface Science, 2004, 38: 242-248.
[10] Fabbro R, Peyre P, Berthe L, et al. Physics and applications of laser-shock processing[J]. Laser Apply, 1998, 10: 265-279.
[11] Nie Xiangfan, Long Nidong, He Weifeng, et al. The effect on the surface of Ti-5Al-2Sn-2Zr-4Mo-4Cr by laser shock peening[J]. Materials Science Forum, 2011, 694: 946-950.
[12] Li Wei, He Weifeng, Li Yinghong, et al. Effects of laser shock processing on vibration fatigue properties of K417 material[J]. Chinese J Lasers, 2009, 35(8): 2197-2201. (in Chinese)
[13] Zhou Lei, Xue Dezhi, Chen Keqing, et al. Experimental research of laser shock processing on K417 alloy[J]. Aviation Precision Manufacturing Technology, 2010, 46(6):39-42. (in Chinese)
[14] Zhou Lei, Li Yinghong, Wang Cheng, et al. Study of laser shock processing improve the vibration fatigue properties of K417 material[J]. Infrared and Laser Engineering, 2009, 38(S): 408-411. (in Chinese)
[16] Zhou Lei, Li Yinghong, Wang Cheng, et al. Vibration fatigue performance improvement of K417 alloy by laser shock processing and alumunizing[J]. Rare Metal Materials And Engineering, 2011(11): 1093-1096. (in Chinese)
[17] Peyre P, Fabbro R. Laser shock processing: a review of the physics and application[J]. Opt and Quantum Electron, 1995, 27(12): 1213-1229.
[18] Wen Shizhu, Huang Ping. Principles of Tribology[M]. Beijing: Tsinghua University, 2002. (in Chinese)
[19] An Taofeng, Sun Xiaofeng, Guan Hengrong, et al. Hot corrosion behaviors of an aluminide coated nickel base supperalloy[D]. Shanghai: Shanghai Institute of Metallurgy,2000.