Effect of Laser Incident Angle on Paint Removal of 2024 Aluminum Alloy Surface

Shiguang Liu; Shufeng Sun; Pingping Wang; Xingbo Zhang; Jin Wang; Haitao Wang; Jixin Liu

doi:10.3788/LOP202259.1714009

[1] Zhang Y L, Sun S F, Wang X et al. Research on quality of micro-holes fabricated by laser drilling[J]. Laser & Optoelectronics Progress, 58, 1900002(2021).

[2] Zhang C Z, Chen H. Effect of microstructures of ultranarrow gap laser welded B950CF steel joints on residual stress distribution[J]. Chinese Journal of Lasers, 48, 0602101(2021).

[3] Chen Z X, Zhou H M, Xu C X. Cladding crack in laser cladding: a review[J]. Laser & Optoelectronics Progress, 58, 0700006(2021).

[4] Liu H T, Li J C, Yang Y et al. Automatic process parameters tuning and surface roughness estimation for laser cleaning[J]. IEEE Access, 8, 20904-20919(2020).

[5] Gao K, Zeng Q S, Zhang Z Y et al. Adhesion of residual primer paint after laser cleaning aircraft aluminum alloy skin[J]. Laser & Optoelectronics Progress, 58, 0914006(2021).

[6] Giusti C, Colombini M P, Lluveras-Tenorio A et al. Graphic vandalism: multi-analytical evaluation of laser and chemical methods for the removal of spray paints[J]. Journal of Cultural Heritage, 44, 260-274(2020).

[7] Li W, Du P, Zhang J et al. Passivation process in quasi-continuous laser derusting with intermediate pulse width and line-scanning method[J]. Applied Optics, 53, 1103-1109(2014).

[8] Zhang S L, Suebka C, Liu H et al. Mechanisms of laser cleaning induced oxidation and corrosion property changes in AA5083 aluminum alloy[J]. Journal of Laser Applications, 31, 012001(2019).

[9] Li Y Q, Guo L Y, Jiang P et al. Experimental study on surface morphology changes of aluminum alloy using laser cleaning and optimization of process parameters[J]. Chinese Journal of Lasers, 48, 2202016(2021).

[10] Kumar A, Biswas D J. Particulate size and shape effects in laser cleaning of heavy metal oxide loose contamination off clad surface[J]. Optics & Laser Technology, 106, 286-293(2018).

[11] Wan Z, Yang X F, Xia G F et al. Effect of laser power on cleaning mechanism and surface properties[J]. Applied Optics, 59, 9482-9490(2020).

[12] Wang X, Xu M Y, Wang Z W et al. Properties of jet-plated Ni coating on Ti alloy (Ti6Al4V) with laser cleaning pretreatment[J]. Metals, 9, 248(2019).

[13] Zhu G D, Wang S R, Cheng W et al. Corrosion and wear performance of aircraft skin after laser cleaning[J]. Optics & Laser Technology, 132, 106475(2020).

[14] Li C, Pang X Y, Sun M Y et al. Particles generation of aluminum alloy induced by nanosecond laser[J]. Chinese Journal of Lasers, 48, 1402015(2021).

[15] Zhang G X, Hua X M, Li F et al. Effect of laser cleaning process parameters on the surface roughness of 5754-grade aluminum alloy[J]. The International Journal of Advanced Manufacturing Technology, 105, 2481-2490(2019).

[16] Wan Z, Yang X F, Xia G F et al. Effect of laser frequency on the mechanism and performance of laser dry cleaning[J]. Surface Technology, 50, 70-77(2021).

[17] Tong Y, Qiu T W, Yi J L et al. Effect of pulse frequency on laser cleaning mechanism of paint coating[J]. Laser & Optoelectronics Progress, 58, 1914009(2021).

[18] Madhukar Y K, Mullick S, Nath A K. Development of a water-jet assisted laser paint removal process[J]. Applied Surface Science, 286, 192-205(2013).

[19] Mainusch N, Pflugfelder C, Ihlemann J et al. Plasma jet coupled with Nd: YAG laser: new approach to surface cleaning[J]. Plasma Processes and Polymers, 4, S33-S38(2007).

[20] Hellen R. Preliminary study into the reduction and removal of naturally aged varnishes from painted surfaces using an Er∶YAG laser in a two-step cleaning process with solvents[J]. Journal of the Institute of Conservation, 43, 79-93(2020).

[21] Alabone G, Carvajal M S. The removal of bronze paint repairs from overgilded picture frames using an Erbium: YAG laser[J]. Journal of the Institute of Conservation, 43, 107-121(2020).

[22] Zhou C, Li H G, Chen G Y et al. Effect of single pulsed picosecond and 100 nanosecond laser cleaning on surface morphology and welding quality of aluminium alloy[J]. Optics & Laser Technology, 127, 106197(2020).

[23] Ortiz P, Antúnez V, Ortiz R et al. Comparative study of pulsed laser cleaning applied to weathered marble surfaces[J]. Applied Surface Science, 283, 193-201(2013).

[24] Zhang Z Y, Zhang J Y, Wang Y B et al. Removal of paint layer by layer using a 20 kHz 140 ns quasi-continuous wave laser[J]. Optik, 174, 46-55(2018).

[25] Hasegawa S, Shiono K, Hayasaki Y. Femtosecond laser processing with a holographic line-shaped beam[J]. Optics Express, 23, 23185-23194(2015).

[26] Lee J M, Watkins K G, Steen W M. Angular laser cleaning for effective removal of particles. from a solid surface[J]. Applied Physics A, 71, 671-674(2000).

[27] Schmidt M J J, Li L, Spencer J T. An investigation into the feasibility and characteristics of using a 2.5 kW high power diode laser for paint stripping[J]. Journal of Materials Processing Technology, 138, 109-115(2003).

[28] Pouli P, Nevin A, Andreotti A et al. Laser assisted removal of synthetic painting-conservation materials using UV radiation of ns and fs pulse duration: morphological studies on model samples[J]. Applied Surface Science, 255, 4955-4960(2009).

[29] Phipps C[M]. Laser ablation and its applications(2007).

[30] Lippert T. UV Laser ablation of polymers: from structuring to thin film deposition[M]. Miotello A, Ossi P M. Laser-surface interactions for new materials production. Springer series in materials science, 130, 141-175(2010).

[31] Tong Y Q, Ren X D[M]. Theory and technology of nanosecond pulse laser cleaning(2019).

[32] Kumar A, Gupta M C. Surface preparation of Ti-3Al-2.5V alloy tubes for welding using a fiber laser[J]. Optics and Lasers in Engineering, 47, 1259-1265(2009).