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A compressible multiphase Mass-of-Fluid model for the simulation of laser-based manufacturing processes

Constantin Zenz, Michele Buttazzoni, Tobias Florian, Katherine Elizabeth Crespo Armijos, Rodrigo Gómez Vázquez, Gerhard Liedl, Andreas Otto

2023Computers & Fluids32 citationsDOIOpen Access PDF

Abstract

A new model for compressible multiphase flows involving sharp interfaces and phase change is presented, that uses a variant of the Volume-of-Fluid model to track phases by advecting their respective mass, and is hence called Mass-of-Fluid model. The framework is aimed at predicting the coupled multi-physical phenomena involved in most processes encountered in laser material processing, with the aim of minimizing a priori assumptions on the nature of the process. Emphasis is put on the multiphase fluid flow model, especially on the treatment of compressibility and phase change. The model’s accuracy and suitability is demonstrated on problems of increasing complexity, including well-known benchmarks and problems encountered in laser material processing, where simulation results are compared to experimental observations.

Topics & Concepts

CompressibilityMultiphase flowCompressible flowA priori and a posterioriVolume of fluid methodComputer scienceMechanicsFluid dynamicsFlow (mathematics)Process (computing)Statistical physicsApplied mathematicsPhysicsMathematicsPhilosophyOperating systemEpistemologyLaser Material Processing TechniquesLaser-induced spectroscopy and plasmaFluid Dynamics and Heat Transfer
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