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Chinese Journal of Lasers, Volume. 43, Issue 12, 1202001(2016)

Effect of Surface Treatment Technology on Laser Damage Resistance of Aluminium Alloy

Shi Shuang1,2、*, Sun Mingying1,3, Hao Yanfei1, Zhang Yan1, Pang Xiangyang1, Zhang Yanan2, and Liu Zhigang1
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    [1] [1] Soileau M J. 40 year retrospective of fundamental mechanisms[C]. SPIE, 2008, 7132: 713201.

    [2] [2] Manenkov A A. Fundamental mechanisms of laser-induced damage in optical materials: Understanding after 40-year research[C]. SPIE, 2008, 7132: 713202.

    [3] [3] Miao Xinxiang, Cheng Xiaofeng, Yuan Xiaodong, et al. Laser-induced damage of fused silica initiated by Cu contamination particles on surface[J]. High Power Laser and Particle Beams, 2010, 22(8): 1740-1744.

    [4] [4] Miao Xinxiang, Yuan Xiaodong, Wang Haijun, et al. Experiment of laser induced damage threshold for fused silica initiated at thin film contamination of Cu on surface[J]. High Power Laser and Particle Beams, 2008, 20(9): 1483-1486.

    [5] [5] Miao Xinxiang, Yuan Xiaodong, Wang Chengcheng, et al. Laser induced damage in fused silica contaminated by Al film[J]. High Power Laser and Particle Beams, 2010, 22(7): 1653-1656.

    [6] [6] Wang Libin, Ma Weixin, Ji Lailin, et al. Influence of metal particles on damage threshold of fused silica at 3ω[J]. Chinese J Lasers, 2012, 39(5): 0502004.

    [7] [7] Génin F Y, Michlitsch K, Furr J, et al. Laser-induced damage of fused silica at 355 and 1064 nm initiated at aluminum contamination particles on the surface[C]. SPIE, 1997, 2966: 126-138.

    [8] [8] Génin F Y, Kozlowski M R, Brusasco R. Catastrophic failure of contaminated fused silica optics at 355 nm[C]. 2nd Annual International Conference on Solid State Lasers for Application to Inertial Confinement Fusion, Paris, 1997.

    [9] [9] Génin F Y, Rubenchick A M, Burnham A K, et al. Thin film contamination effects on laser-induced damage of fused silica surfaces at 355 nm[C]. SPIE, 1999, 3492: 212-218.

    [10] [10] Génin F Y, Feit M D, Kozlowski M R, et al. Rear-surface laser damage on 355-nm silica optics owing to Fresnel diffraction on front-surface contamination particles[J]. Applied Optics, 2000, 39(21): 3654-3663.

    [11] [11] Chang Hao, Jin Xing, Chen Zhaoyang. Study on optical and thermophysical properties of aluminum under nanosecond laser irradiation[J]. Acta Optica Sinica, 2013, 33(11): 1114002.

    [12] [12] Han Fengming, Xu Shizhen, Song Wenliang, et al. Study of nanosecond laser ablation on aluminum and stainless steel targets[J]. Chinese J Lasers, 2016, 43(2): 0203005.

    [13] [13] An Liansheng. Applied optics[M]. Beijing: Beijing Institute of Technology Press, 2008: 226-227.

    [14] [14] Xie J, Kar A, Rothenflue J A, et al. Temperature-dependent absorptivity and cutting capability of CO2, Nd\:YAG and chemical oxygen-iodine lasers[J]. Journal of Laser Applications, 1997, 9(2): 77-85.

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    [2] LI Zhao-yan, SUN Ming-ying, HAO Yan-fei, PANG Xiang-yang, LIU Zhi-gang, ZHANG Ya-nan. Laser Damage Resistance of Engineering Ceramics[J]. Acta Photonica Sinica, 2017, 46(10): 1014003

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    Shi Shuang, Sun Mingying, Hao Yanfei, Zhang Yan, Pang Xiangyang, Zhang Yanan, Liu Zhigang. Effect of Surface Treatment Technology on Laser Damage Resistance of Aluminium Alloy[J]. Chinese Journal of Lasers, 2016, 43(12): 1202001

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    Paper Information

    Category: laser manufacturing

    Received: Jun. 22, 2016

    Accepted: --

    Published Online: Dec. 9, 2016

    The Author Email: Shuang Shi (18321732296@163.com)

    DOI:10.3788/cjl201643.1202001

    Topics

    laser devices and laser physics
    Lasers and Laser Optics
    Laser physics
    laser manufacturing
    Instrumentation, Measurement and Metrology