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A numerical study of processing parameters and their effect on the melt-track profile in Laser Powder Bed Fusion processes

Gowthaman Parivendhan, Philip Cardiff, T.F. Flint, Željko Tuković, Muhannad Ahmed Obeidi, Dermot Brabazon, Alojz Ivankoviç

2023Additive manufacturing38 citationsDOIOpen Access PDF

Abstract

Mathematical models provide valuable insight into the Laser Beam Powder Bed Fusion (PBF-LB) process. Numerical modelling of the PBF-LB process and the influence of the process parameters on the melt pool topology are presented in this study. A one-way coupled model using Computational Fluid Dynamics (CFD) and Discrete Element Method (DEM) is adopted to model the particle distribution in the powder bed and the melt pool formation and dynamics due to laser irradiation during the PBF process. The DEM method is used to model the interaction between particles in the powder bed, and CFD is used to simulate the melt pool formation, flow and solidification. The Volume of Fluid (VoF) approach was used to model the three phases. The effects of surface tension, Marangoni convection and recoil pressure at the metal/gas interface were included in this model. The predicted melt pool dimensions for various process parameters are validated against the experimental data. The different pore-forming mechanisms in multi-track, multi-layer cases and the effect of actual layer thickness are investigated. The proposed modelling approach is shown to capture the dominant physical mechanisms of the PBF-LB processes, potentially being used as a tool to understand process-structure–property relationships and aid in process optimisation.

Topics & Concepts

Marangoni effectMaterials scienceVolume of fluid methodDiscrete element methodSurface tensionComputational fluid dynamicsMechanicsProcess (computing)FusionFluid dynamicsMetal powderConvectionFlow (mathematics)MetallurgyThermodynamicsComputer scienceMetalPhysicsLinguisticsOperating systemPhilosophyAdditive Manufacturing Materials and ProcessesAdditive Manufacturing and 3D Printing TechnologiesParticle Dynamics in Fluid Flows
A numerical study of processing parameters and their effect on the melt-track profile in Laser Powder Bed Fusion processes | Litcius