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On phase change and latent heat models in metal additive manufacturing process simulation

Sebastian D. Proell, Wolfgang A. Wall, Christoph Meier

2020Advanced Modeling and Simulation in Engineering Sciences40 citationsDOIOpen Access PDF

Abstract

Abstract This work proposes an extension of phase change and latent heat models for the simulation of metal powder bed fusion additive manufacturing processes on the macroscale and compares different models with respect to accuracy and numerical efficiency. Specifically, a systematic formulation of phase fraction variables is proposed relying either on temperature- or enthalpy-based interpolation schemes. Moreover, two well-known schemes for the numerical treatment of latent heat, namely the apparent capacity and the so-called heat integration scheme, are critically reviewed and compared with respect to numerical efficiency and overall accuracy. Eventually, a novel variant of the heat integration scheme is proposed that allows to directly control efficiency and accuracy by means of a user-defined tolerance. Depending on the chosen tolerance, it is shown that this novel approach offers increased numerical efficiency for a given level of accuracy or improved accuracy for a given level of numerical efficiency as compared to the apparent capacity and the original heat integration scheme. The investigation and comparison of all considered schemes is based on a series of numerical test cases that are representative for application scenarios in metal powder bed fusion additive manufacturing.

Topics & Concepts

Latent heatComputer scienceInterpolation (computer graphics)Process integrationFusionPhase-change materialFraction (chemistry)Work (physics)Computer simulationProcess (computing)Enthalpy of fusionPhase changeAlgorithmApplied mathematicsProcess engineeringMaterials scienceMathematicsThermodynamicsSimulationEngineeringMechanical engineeringChemistryArtificial intelligenceComposite materialPhilosophyLinguisticsMelting pointOperating systemMotion (physics)Organic chemistryPhysicsAdditive Manufacturing Materials and ProcessesAdditive Manufacturing and 3D Printing TechnologiesWelding Techniques and Residual Stresses
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