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Erosion behaviour of HVOF sprayed Alloy718-nano Al<sub>2</sub>O<sub>3</sub> composite coatings on grey cast iron at elevated temperature conditions

Hitesh Vasudev, Lalit Thakur, Harmeet Singh, Amit Bansal

2021Surface Topography Metrology and Properties58 citationsDOI

Abstract

The current study investigates the erosion performance of high-velocity oxy-fuel (HVOF) sprayed Alloy718-nanoAl2O3 composite coatings on cast iron. The effect of the addition of nano-Al2O3 reinforcement in the Alloy718(AL718) matrix was studied by varying the nano-Al2O3 content from 10wt% to 30wt%. Initially, the microstructural and phase analysis of the developed coatings was conducted. The as-deposited coating in the AL718matrix showed the well-scattered nano-Al2O3particles in the AL718 matrix. The highest micro-hardness was found to be1296 ± 40 HV0.2 for Alloy718%-30%nanoAl2O3 (30N) coating, which is around 3.56 times higher than the grey cast iron (GCI) substrate. The air-jet erosion test was conducted at 900 °C at both low and high degrees impact angles (30° and 90°). The 30N coating showed the maximum erosion resistance due to the higher micro-hardness and fracture toughness amongst all the deposited coatings. The increased nano-Al2O3 content enhanced the erosion resistance of the coatings by providing dispersion strengthening to the matrix. The formation of cavities, ploughing, lip formation and micro-cutting were observed in all deposited coatings at 30° impact angle as wear mechanism. The formation of cracks, craters and pullout was the responsible wear mechanism at 90° impact angle for all deposited coatings. The developed coatings showed mixed behaviour of ductile and brittle mode of failure at 30° impact angle and brittle mode of failure at 90° impact angle for 30N coating.

Topics & Concepts

Materials scienceCoatingBrittlenessCast ironThermal sprayingComposite materialComposite numberNano-MetallurgyErosionBiologyPaleontologyErosion and Abrasive MachiningHigh-Temperature Coating BehaviorsAdvanced materials and composites