Removal mechanism of blue paint on aluminum alloy substrate during surface cleaning using nanosecond pulsed laser

•Blue polyurethane paint could be completely removed without damaging the aluminum alloy surface by using a nanosecond pulsed fiber laser.•For laser cleaning of blue polyurethane paint, ablation, spallation and vaporization induced by the rising temperature of paint are the main mechanisms.•With the...

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Bibliographic Details
Published in:Optics and laser technology 2022-05, Vol.149, p.107882, Article 107882
Main Authors: Zhang, Donghe, Xu, Jie, Li, Zhichao, Li, Kai, Wang, Chunsheng, Shan, Debin, Guo, Bin
Format: Article
Language:English
Subjects:
Ablation
Aluminum alloy
Aluminum alloys
Aluminum base alloys
Blue polyurethane paint
Chemical composition
Cleaning
Fluence
Grooves
Laser cleaning
Lasers
Magnesium
Nanosecond pulsed laser
Nanosecond pulses
Polyurethane resins
Pulsed lasers
Spallation
Substrates
Surface roughness
Vaporization
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Summary:•Blue polyurethane paint could be completely removed without damaging the aluminum alloy surface by using a nanosecond pulsed fiber laser.•For laser cleaning of blue polyurethane paint, ablation, spallation and vaporization induced by the rising temperature of paint are the main mechanisms.•With the increasing of laser fluence, three different surface topographies were formed on aluminum alloy surface, which are discussed.•At high laser fluence, the roughness of substrate surface significantly reduces, which provides a reference for achieving the purpose of polishing the substrate surface while laser cleaning. This paper presents laser cleaning of blue polyurethane paint on Al-Mg series aluminum alloy substrate by using a nanosecond pulsed laser. Experiments were conducted at the laser fluence of 1.2–8.0 J/cm2. The specimen topography and surface chemical composition were analyzed by scanning electron microscopy (SEM) and energy dispersive X-ray spectroscopy (EDS), respectively. The paint could be completely removed without damaging the substrate at the laser fluence of 3.2 J/cm2. Ablation, spallation and vaporization are the main cleaning mechanisms during laser cleaning of the paint. The surface roughness was significantly decreased at higher laser fluence due to surface melting. With the increasing of laser fluence, the scratched grooves on the sample surface turned shallow and three different surface topographies were formed at the laser fluence of 4.8 J/cm2, 6.4 J/cm2 and 8.0 J/cm2. The formation mechanisms of the three surface topographies are discussed, which provides a reference for the purpose of polishing the substrate surface while laser cleaning.
ISSN:0030-3992
1879-2545
DOI:10.1016/j.optlastec.2022.107882