Laser-induced paint removal of CFRP composite skin without damage of interface aluminum layer

•A two-step laser process strategy was employed to remove the paint from the surface of the aircraft CFRP composite skin.•The coating ablation and surface state difference under two laser-induced modes were analyzed.•Different damage patterns on the surface of the aluminum layer were revealed. Avoid...

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Published inInfrared physics & technology Vol. 137; p. 105159
Main Authors Xiong, Weibiao, Shen, Yizhou, He, Zhaoru, Shu, Song, Song, Shuangshuang
Format Journal Article
LanguageEnglish
Published Elsevier B.V 01.03.2024
Subjects
Damage mechanism
Laser effects
Paint removal
Surface state
Two-step process
Paint removal
Two-step process
Surface state
Laser effects
Damage mechanism
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Abstract •A two-step laser process strategy was employed to remove the paint from the surface of the aircraft CFRP composite skin.•The coating ablation and surface state difference under two laser-induced modes were analyzed.•Different damage patterns on the surface of the aluminum layer were revealed. Avoiding substrate damage is of the utmost importance throughout the paint removal process. Laser technology enables accurate and effective paint removal. In this study, a two-step laser process was employed to remove the thick paint from the sprayed aluminum surface with a rough structure. As a result of high energy density laser induced, three uneven layers of paint were cleaned swiftly. The paint temperature quickly exceeded 450 K, and evaporation occurred. However, ablation removal took the lead in the experiments. Following the first removal, the surface treatment agent covered the ablation surface. Meanwhile, thermal accumulation caused formation and spreading of both poriferous and dense char-slag types over the aluminum surface. The surface treatment agent prevented direct interaction between laser and aluminum. The low energy density laser was then used to remove the remains. Except for the treatment agent hidden in recessed structures, the majority of residue was successfully removed at a laser energy density of 6.8 J/cm2. However, two types of damage manifest on the aluminum surface. Once the laser energy density reached 10.2 J/cm2, residual paint and remelting metal existed on the surface simultaneously. As the heat input was increased, the aluminum remelted and mixed with the residue, and a smoother aluminum surface was obtained. This two-step laser paint removal approach provides guidelines for using laser technology in aircraft restoration.
AbstractList •A two-step laser process strategy was employed to remove the paint from the surface of the aircraft CFRP composite skin.•The coating ablation and surface state difference under two laser-induced modes were analyzed.•Different damage patterns on the surface of the aluminum layer were revealed. Avoiding substrate damage is of the utmost importance throughout the paint removal process. Laser technology enables accurate and effective paint removal. In this study, a two-step laser process was employed to remove the thick paint from the sprayed aluminum surface with a rough structure. As a result of high energy density laser induced, three uneven layers of paint were cleaned swiftly. The paint temperature quickly exceeded 450 K, and evaporation occurred. However, ablation removal took the lead in the experiments. Following the first removal, the surface treatment agent covered the ablation surface. Meanwhile, thermal accumulation caused formation and spreading of both poriferous and dense char-slag types over the aluminum surface. The surface treatment agent prevented direct interaction between laser and aluminum. The low energy density laser was then used to remove the remains. Except for the treatment agent hidden in recessed structures, the majority of residue was successfully removed at a laser energy density of 6.8 J/cm2. However, two types of damage manifest on the aluminum surface. Once the laser energy density reached 10.2 J/cm2, residual paint and remelting metal existed on the surface simultaneously. As the heat input was increased, the aluminum remelted and mixed with the residue, and a smoother aluminum surface was obtained. This two-step laser paint removal approach provides guidelines for using laser technology in aircraft restoration.
ArticleNumber 105159
Author Shen, Yizhou
Shu, Song
Xiong, Weibiao
Song, Shuangshuang
He, Zhaoru
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Two-step process
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Snippet •A two-step laser process strategy was employed to remove the paint from the surface of the aircraft CFRP composite skin.•The coating ablation and surface...
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elsevier
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StartPage 105159
SubjectTerms Damage mechanism
Laser effects
Paint removal
Surface state
Two-step process
Title Laser-induced paint removal of CFRP composite skin without damage of interface aluminum layer
URI https://dx.doi.org/10.1016/j.infrared.2024.105159
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