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Spattering and oxidation phenomena during recycling of low alloy steel powder in Laser Powder Bed Fusion

Tatiana Fedina, Jesper Sundqvist, Alexander Kaplan

2021Materials Today Communications48 citationsDOIOpen Access PDF

Abstract

This study reports on the impact of repeated powder recycling on the degradation of low alloy steel powder in Laser Powder Bed Fusion. The average powder particle size increased slightly upon recycling due to powder agglomeration and the presence of spatters and other ejecta from the process zone. The oxygen content showed a continuous growth after each recycle, while the other chemical elements of the recycled powder remained largely unchanged. A map of ejecta classification is presented, featuring various ejecta types formed during laser processing. Ejecta of increased diameter and different shapes were observed in the recycled powder, using high-speed imaging and Scanning Electron Microscopy. The ejecta were collected after each powder recycle to enable the calculation of the ejecta mass generated during the process. The result showed a direct correlation between oxygen content in the powder and spatter/ejecta formation with the number of recycling events. It is likely that the increase in oxygen contributes to powder spattering.

Topics & Concepts

EjectaMaterials scienceAlloyScanning electron microscopeFusionMetallurgyComposite materialPhilosophyQuantum mechanicsLinguisticsPhysicsSupernovaAdditive Manufacturing Materials and ProcessesWelding Techniques and Residual StressesAdditive Manufacturing and 3D Printing Technologies
Spattering and oxidation phenomena during recycling of low alloy steel powder in Laser Powder Bed Fusion | Litcius