Litcius/Paper detail

Influence of Atmospheric Plasma Spray Parameters (APS) on the Mechanical Properties of Ni-Al Coatings on Aluminum Alloy Substrate

Miriam Lorenzo-Bañuelos, A. Díaz, David Rodríguez, I.I. Cuesta, Adrián Fernández-Roiz, J.M. Alegre

2021Metals23 citationsDOIOpen Access PDF

Abstract

Thermal spray is one of the most widely used coating techniques to improve wear, surface fatigue or corrosion properties. In the atmospheric plasma spray (APS) process, a powdered material is melted by hydrogen and argon combustion and is propelled at high speed onto the target substrate. The high impact energy of the particles produces a dense and resistant coating layer. Mechanical and surface properties of the obtained coating depend on various spraying parameters, such as gas flow, traverse speed and spraying distance, among others. In this research, the influence of these manufacturing parameters on the thickness, hardness and resistance of the coating obtained from a Ni-Al alloy sprayed onto an aluminum alloy substrate was studied. In order to analyze the effect of these parameters on the coating properties, an extensive experimental program was carried out. A metallographic analysis, hardness and strength measurements were carried out using the small punch test to locally study the mechanical properties of the coating surface. The design of experiments and the response surface methodology facilitate the assessment of the optimal set of spraying parameters.

Topics & Concepts

Materials scienceCoatingThermal sprayingMetallurgyAlloySubstrate (aquarium)Gas dynamic cold sprayHigh-speed steelAluminiumSolution precursor plasma sprayLayer (electronics)CorrosionComposite materialAtmospheric-pressure plasmaIndentation hardnessPlasmaMicrostructureOceanographyQuantum mechanicsGeologyPhysicsHigh-Temperature Coating BehaviorsMaterials Engineering and ProcessingHigh Entropy Alloys Studies