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Columnar-to-equiaxed grain transition in powder bed fusion via mimicking casting solidification and promoting in situ recrystallization

Paria Karimi, Esmaeil Sadeghi, Joakim Ålgårdh, Ali Keshavarzkermani, Reza Esmaeilizadeh, Ehsan Toyserkani, Joel Andersson

2021Additive manufacturing66 citationsDOIOpen Access PDF

Abstract

Columnar grain structure typically formed along the build direction in the electron beam-powder bed fusion (EB-PBF) technique leads to anisotropic physical and mechanical properties. In this study, casting solidification condition was mimicked, and in situ recrystallization was promoted in EB-PBF to facilitate columnar-to-equiaxed grain structure transition in Alloy 718. This is achieved via a unique linear melting strategy coupled with a specific selection of process parameters in EB-PBF. It was found that site-specific melting using line order number (LON) function affected the cooling rate and temperature gradient, which controlled grain morphology and texture. A high LON resulted in a large equiaxed grain zone with a random texture, whereas a fixed LON with a high areal energy density led to a strong texture. The main driving force in the formation of cracks and shrinkage defects during the transition was investigated. A high LON at a fixed areal energy density reduced the average total shrinkage defects and crack length. The hardness was decreased through the transition, which was linked to the reduction in the size of the γ″ precipitates.

Topics & Concepts

Equiaxed crystalsMaterials scienceRecrystallization (geology)FusionTexture (cosmology)ShrinkageGrain sizeMetallurgyDynamic recrystallizationMicrostructureComposite materialAnisotropyHot workingOpticsComputer scienceBiologyPaleontologyPhilosophyLinguisticsImage (mathematics)Artificial intelligencePhysicsAdditive Manufacturing Materials and ProcessesHigh Entropy Alloys StudiesNuclear Materials and Properties