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Subsurface grain refinement in electron beam-powder bed fusion of Alloy 718: Surface texture and oxidation performance

Esmaeil Sadeghi, Prabhat Pant, Reza Jafari, Ru Lin Peng, Paria Karimi

2020Materials Characterization31 citationsDOIOpen Access PDF

Abstract

Subsurface grains of Alloy 718 additively manufactured via electron beam-powder bed fusion technique were refined using shot peening to improve the surface texture and oxidation performance. Oxidation of the specimens was performed at 650 and 800 °C in ambient air. Due to plastic deformation upon shot peening, compressive residual stress and high microstrain were generated in the subsurface region within a depth of approximately 50 μm. The shot-peened specimen exhibited lower surface roughness, finer subsurface grains, and higher hardness compared to the as-built specimen. Shot peening, coupled with hot isostatic pressing and heat treatment (HIP-HT), yielded superior oxidation performance with substantially low oxidation kinetics at 800 °C. The smooth surface, as well as dense and refined subsurface microstructure resulting from shot peening, facilitated the formation of a continuous, protective, and adherent Cr-rich oxide scale.

Topics & Concepts

Materials scienceShot peeningPeeningHot isostatic pressingMicrostructureResidual stressSurface roughnessTexture (cosmology)MetallurgyAlloySurface finishOxideSevere plastic deformationGrain sizeComposite materialImage (mathematics)Computer scienceArtificial intelligenceAdditive Manufacturing Materials and ProcessesLaser Material Processing TechniquesBone Tissue Engineering Materials