[1] Xiaohui Han, Xiansheng Qi. Engineering application and prospect of high-efficiency and high-quality laser cleaning technology for rail passenger cars. Machinist Metal Forming, 11-14(2020).
[2] Wentao Jin, Anjin Lu, Zhongchen Dai. Application of laser cleaning technology in automatic welding of aluminum alloy body in rail vehicles. Machinist Metal Forming, 17-20(2019).
[3] W Wang, J Shen, W J Liu, et al. Effect of laser energy density on surface physical characteristics and corrosion resistance of 7075 aluminum alloy in laser cleaning. Optics & Laser Technology, 148, 107742(2022).
[4] G X Zhang, X M Hua, Y Huang, et al. Investigation on mechanism of oxide removal and plasma behavior during laser cleaning on aluminum alloy. Applied Surface Science, 506, 144666(2020).
[5] R Y Li, J Yue, X Y Shao, et al. A study of thick plate ultra-narrow-gap multi-pass multi-layer laser welding technology combined with laser cleaning. International Journal of Advanced Manufacturing Technology, 81, 113-127(2015).
[6] L Y Guo, Y Q Li, S N Geng, et al. Numerical and experimental analysis for morphology evolution of 6061 aluminum alloy during nanosecond pulsed laser cleaning. Surface and Coatings Technology, 432, 128056(2022).
[7] A W Alshaer, L Li, A Mistry. The effects of short pulse laser surface cleaning on porosity formation and reduction in laser welding of aluminum alloy for automotive component manufacture. Optics & Laser Technology, 64, 162-171(2014).
[8] Yiming Chen, Longzao Zhou, Fei Yan, et al. Mechanism and quality evaluation of laser cleaning of aluminum alloy. Chinese Journal of Lasers, 44, 1202005(2017).
[9] Zhicheng Guo, Qiuying Wang, Wenzhao Qin. Influence of laser cleaning on the machanical properties of A5083-H111 aluminum processed with MIG welding. Rail Transportation Equipment and Technology, 14-16(2020).
[10] T Y Shi, C M Wang, G Y Mi, et al. A study of microstructure and mechanical properties of aluminum alloy using laser cleaning. Journal of Manufacturing Processes, 42, 60-66(2019).
[11] C Zhou, H G Li, G Y Chen, et al. Effect of single pulsed picosecond and 100 nanosecond laser cleaning on surface morphology and welding quality of aluminum alloy. Optics and Laser Technology, 127, 106197(2020).
[12] B W Liu, C M Wang, G Y Mi, et al. Oxygen content and morphology of laser cleaned 5083 aluminum alloy and its influences on weld porosity. Optics and Laser Technology, 140, 107031(2021).
[13] Y Ren, L M Wang, J F Li, et al. The surface properties of an aviation aluminum alloy after laser cleaning. Coatings, 12, 273(2022).
[14] J Deng, G R Zhao, J H Lei, et al. Research progress and challenges in laser-controlled cleaning of aluminum alloy surfaces. Materials, 15, 5469(2022).
[15] F P Fehlner, N F Mott. Low-temperature oxidation. Oxidation of Metals, 2, 59-99(1970).
[16] L A Kuzik, V A Yakovlev. Effect of a noble metal coating on a natural aluminum oxide film. Thin Solid Films, 340, 288-291(1999).
[17] Shiyun Dong, Chaoqun Song, Shixing Yan, et al. Effect of cleaning pretreatment on laser welding formation of 7A52 aluminum alloy. Journal of Armored Forces, 31, 100-105(2017).
[18] Peiyun Xia, Yuhuan Yin, Aijun Cai, et al. Laser cleaning process of 2219 aluminum alloy anodic oxide film before welding. Chinese Journal of Lasers, 46, 0102005(2019).
