[1] Uros T, Sebastjan Z, Janez G, et al.. Surface modification of laser- and shot- peened 6082 aluminum alloy: laser peening effect of pitting corrosion[J]. International Journal of Structural Integrity, 2011, 2(1): 9-21.
[2] Sun Chunfang, Ding Yaocheng, Tang Xiwen. Fatigue property of aluminum alloy Al6082[J]. Automobile Technology, 2009, 6: 55-58.
[4] Tao Chunhu, Liu Qingquan, Cao Chunxiao, et al.. Failure and Prevention of Aerospace Titanium Alloys[M]. Beijing: National Defense Industry Press, 2002.
[7] Qiao Hongchao, Zhao Jibin, Lu Ying. Develop and analysis of nanosecond pulse width Nd∶YAG laser for laser peening[J]. Chinese J Lasers, 2013, 40(8): 0802001.
[11] Liu X D, Shang D G, Li M, et al.. Healing fatigue damage by laser shock peening for copper film[J]. International Journal of Fatigue, 2013, 54: 127-132.
[12] Vasu A, Grandhi R V. Effects of curved geometry on residual stress in laser peening [J]. Surface and Coating Technology, 2013, 218: 71-79
[13] Jing Yongjuan, Wang Xinying, Zhang Ji. Effect of shot peening on tensile properties of TiAl alloys[J]. Chinese Journal of Fare Metals, 2009, 33(5): 750-753.
[14] Luo Xinmin, Zhang Jingwen, Zhao Guangzhi, et al.. Effect of laser shock strengthening on fatigue behaviors of 2A02 aluminum alloy[J]. Chinese J Lasers, 2009, 36(12): 3323-3328.
[16] Liu K K, Hill M R. The effects of laser peening and shot peening on fretting fatigue in Ti~6Al~4V coupons[J]. Tribology International, 2009, 42(9): 1250-1262.
[17] Peyre P, Fabbro R, Merrien P, et al.. Laser shock processing of aluminium alloys. Application to high cycle fatigue behaviour[J]. Materials Science and Engineering A, 1996, 210(1-2): 102-113.