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Chinese Journal of Lasers, Volume. 51, Issue 16, 1602205(2024)

Effect of Laser Cleaning Process on Microstructure and Fatigue Properties of Aviation Aluminum Alloy

Cheng Cheng1, Weichen Yu1、*, Yao Ding1, Taiwen Qiu1, Shuangchao Fu1, and Yunyang Tang2
Author Affiliations
  • 1Aeronautical Manufacturing Technology Institute, Comac Shanghai Aircraft Manufacturing Co., Ltd., Shanghai 201324, China
  • 2Metrology & Test Center, Comac Shanghai Aircraft Manufacturing Co., Ltd., Shanghai 201324, China
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    [1] Wang Z J. Study on the corrosion of civil aviation aircraft skin[J]. Journal of Civil Aviation Flight University of China, 22, 31-34(2011).

    [2] Li J J, Song Z, Ding L Q et al. Study on the performance of civil aircraft skin coating under different surface treatment conditions[J]. Synthetic Materials Aging and Application, 51, 8-9, 43(2022).

    [3] Li C. Research progress on surface protection technology of aircraft skin[J]. Modern Manufacturing Technology and Equipment, 242, 57-58(2017).

    [4] Lu W M, Ji J X, Zhao B H et al. The pretreatment and coating of aircraft skin surface[J]. Shanghai Coatings, 54, 13-18(2016).

    [5] Li Y. Failure analysis of anti-corrosive coats[J]. Shanghai Coatings, 46, 36-39, 55(2008).

    [6] Jin S, Wang J X, Yuan X D et al. Laser paint removal technology for aircraft metal skin and composite materials[J]. Aeronautical Manufacturing Technology, 61, 63-70(2018).

    [7] Moskal D, Martan J, Kučera M et al. Picosecond laser surface cleaning of AM1 superalloy[J]. Physics Procedia, 83, 249-257(2016).

    [8] Wang P Q, Wu M J, Wang Y Y et al. Research development on microstructure and properties of LAM TC4 titanium alloy with different heat treatment processes[J]. Aeronautical Manufacturing Technology, 63, 56-65(2020).

    [9] Wang Z M, Zeng X Y, Huang W L. Status and prospect of laser cleaning procedure[J]. Laser Technology, 24, 68-73(2000).

    [10] Zhang G X, Hua X M, Li F et al. Research and application status of laser de-rusting and de-painting[J]. Hot Working Technology, 48, 1-4, 8(2019).

    [11] Tang Q H, Zhou D, Wang Y L et al. Laser cleaning of sulfide scale on compressor impeller blade[J]. Applied Surface Science, 355, 334-340(2015).

    [12] Guan Y C, Ng G K L, Zheng H Y et al. Laser surface cleaning of carbonaceous deposits on diesel engine piston[J]. Applied Surface Science, 270, 526-530(2013).

    [13] Deng D W, Fan Q H, Zhao X L et al. Influence of processing parameters on surface roughness for laser cleaning of FV520B steel oxide layer[J]. Laser & Optoelectronics Progress, 58, 2114005(2021).

    [14] Hu J, Ma L, Wang W Q et al. Influence of laser paint removal and solvent paint removal on the performance of aircraft skin parts[J]. Metal World, 6-9(2017).

    [15] Li X K, Zhang Q H, Zhou X Z et al. The influence of nanosecond laser pulse energy density for paint removal[J]. Optik, 156, 841-846(2018).

    [16] Kumar A, Bhatt R B, Behere P G et al. Laser-assisted surface cleaning of metallic components[J]. Pramana, 82, 237-242(2014).

    [17] Steen W M, Mazumder J, Watkins K G[M]. Laser material processing, 327-350(2003).

    [18] Hu T Y, Qiao H C, Lu Y et al. Effects of laser de-painting on microstructure and properties of Ti17 alloy[J]. Surface Technology, 47, 7-12(2018).

    [19] Liu W J, Zhang M Q, Li Q et al. Effect of laser cleaning process parameters on surface paint removal of TC4 titanium alloy[J]. Chinese Journal of Lasers, 50, 0402010(2023).

    [20] Jiang G Y, Lei P, Liu Y P et al. Laser removal of coating on oil and gas pipelines: effects on microstructure and hardness of substrate[J]. Chinese Journal of Lasers, 47, 0302009(2020).

    [21] Wei P Y, Chen Z H, Wang D et al. Effect of laser cleaning on mechanical properties of laser lap welded joint of SUS310S stainless steel and 6061 aluminum alloy[J]. Materials Letters, 291, 129549(2021).

    [22] Wang W, Li X J, Liu W J et al. Experimental study on hydrophobic properties and corrosivity of laser cleaned 7075 aluminum alloy anodized film surface[J]. Optics & Laser Technology, 166, 109615(2023).

    [23] Sun Q, Zhou J Z, Meng X K et al. Mechanical properties and microstructure characteristics of 2024-T351 aluminum alloy specimen subjected to paint removal by laser cleaning[J]. Vacuum, 211, 111927(2023).

    [24] Chen X M, Liao J H, Dong D K. Estimation model of detail fatigue rating for multiple similar fatigue structures[J]. Journal of Machine Design, 31, 16-20, 40(2014).

    [25] Li G L, Xue J C. The important effect of the method of DFR in the life analysis for military aircraft structure[J]. Aircraft Design, 28, 35-37, 65(2008).

    [26] Zheng X L, Li L F[M]. Handbook of civil aircraft structures durability and damage tolerance design, 335(2003).

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    Cheng Cheng, Weichen Yu, Yao Ding, Taiwen Qiu, Shuangchao Fu, Yunyang Tang. Effect of Laser Cleaning Process on Microstructure and Fatigue Properties of Aviation Aluminum Alloy[J]. Chinese Journal of Lasers, 2024, 51(16): 1602205

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    Paper Information

    Category: Laser Surface Machining

    Received: Aug. 4, 2023

    Accepted: Sep. 11, 2023

    Published Online: Apr. 17, 2024

    The Author Email: Yu Weichen (yuweichen@comac.cc)

    DOI:10.3788/CJL231088

    CSTR:32183.14.CJL231088

    Topics

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