Laser Patterning Pretreatment before Thermal Spraying: A Technique to Adapt and Control the Surface Topography to Thermomechanical Loading and Materials
Article dans une revue avec comité de lecture
Auteur
KROMER, Robin
227673 Laboratoire d'Études et de Recherches sur les Matériaux, les Procédés et les Surfaces [IRTES - LERMPS]
227673 Laboratoire d'Études et de Recherches sur les Matériaux, les Procédés et les Surfaces [IRTES - LERMPS]
COSTIL, Sophie
227673 Laboratoire d'Études et de Recherches sur les Matériaux, les Procédés et les Surfaces [IRTES - LERMPS]
227673 Laboratoire d'Études et de Recherches sur les Matériaux, les Procédés et les Surfaces [IRTES - LERMPS]
Date
2016Journal
Journal of Thermal Spray TechnologyRésumé
Coating characteristics are highly dependent on substrate preparation and spray parameters. Hence, the surface must be adapted mechanically and physicochemically to favor coating–substrate adhesion. Conventional surface preparation methods such as grit blasting are limited by surface embrittlement and produce large plastic deformations throughout the surface, resulting in compressive stress and potential cracks. Among all such methods, laser patterning is suitable to prepare the surface of sensitive materials. No embedded grit particles can be observed, and high-quality coatings are obtained. Finally, laser surface patterning adapts the impacted surface, creating large anchoring area. Optimized surface topographies can then be elaborated according to the material as well as the application. The objective of this study is to compare the adhesive bond strength between two surface preparation methods, namely grit blasting and laser surface patterning, for two material couples used in aerospace applications: 2017 aluminum alloy and AISI 304L stainless steel coated with NiAl and YSZ, respectively. Laser patterning significantly increases adherence values for similar contact area due to mixed-mode (cohesive and adhesive) failure. The coating is locked in the pattern.
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Article dans une revue avec comité de lectureKROMER, Robin; COSTIL, Sophie; CORMIER, Jonathan; COURAPIED, Damien; BERTHE, Laurent; PEYRE, Patrice; BOUSTIE, Michel (Elsevier, 2015)In thermal spraying, adhesive bond strength is a feature of surface properties. An adapted surface is studied with prior-surface treatments to enhance interface energy. This study deals with Ni–Al coatings on 2017 aluminum ...
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Article dans une revue avec comité de lectureCOURAPIED, Damien; KROMER, Robin; BERTHE, Laurent; PEYRE, Patrice; COSTIL, Sophie; CORMIER, Jonathan; BOUSTIE, Michel; MILHET, Xavier (Laser Institute of America, 2016)The laser shock adhesion test (LASAT) is a technique allowing the generation of high tensile stresses in materials. The LASAT consists in focusing a pulsed laser beam on a water-confined target. The laser pulse crosses the ...
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Article dans une revue avec comité de lectureKROMER, Robin; PEYRE, Patrice; BERTHE, Laurent; COURAPIED, Damien; COSTIL, Sophie; CORMIER, Jonathan (Elsevier, 2018)Thermal barrier coating systems are usually build-up with bond coats to ensure a good adhesion of the ceramic top coat and to protect the substrate against oxidation and corrosion. Such system is often subjected to complex ...
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Article dans une revue avec comité de lectureCOURAPIED, Damien; BERTHE, Laurent; PEYRE, Patrice; COSTE, Frédéric; ZOU, J-P; SAUTIVET, A.-M. (Laser Institute of America, 2015)This paper investigates the different physical processes involved during laser-delayed double shock-wave generation in water-confined geometry. With this technique, two laser pulses, separated by a Δt duration, irradiate ...
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Article dans une revue avec comité de lectureBERTHE, Laurent; COURAPIED, Damien; EL KARNIGHI, Samy; PEYRE, Patrice; GORNY, Cyril; ROUCHAUSSE, Yann (Laser Institute of America, 2017)This paper presents a study on the confined interaction with water flow for two successive laser pulses. The dynamic of the renewal of water films after shock produced by the laser is observed using a high speed camera. ...