Open Access

ARTICLE

On the Vortex Formation Effect During the Application of a Nitrogen-Gas Assisted Laser-Fusion Cutting Technique to Stainless Steel

S. Aggoune¹, C. Abid², E.H. Amara^1,3

1 CDTA, Laser Material Processing Team, PO. BOX 17 Baba-Hassen, 16303 Algiers, Algeria
2 EPUM, Aix-Marseille University, CNRS, IUSTI UMR 7343, 13453 Marseille, France
3 samaggoune@yahoo.fr

Fluid Dynamics & Materials Processing 2015, 11(2), 115-125. https://doi.org/10.3970/fdmp.2015.011.115

Abstract

This paper focuses on the vortex formation effect during the application of a laser-fusion cutting technique. This industrial technique is typically associated with the ejection of a film of molten stainless steel blown off by a subsonic laminar jet of nitrogen gas used to assist the process. Without taking into account the transverse movement of the workpiece, we consider a 4 mm thick stainless steel plate. The resulting molten metal flow is assumed to be laminar, steady, viscous and incompressible. The numerical results reveal vortex structures adjacent to the walls at the entrance of the kerf, and a pair of eddies outside the kerf. Remarkably, these vortex structures can produce a separation point in the molten film, and thereby they can affect the surface quality of the processed material. The problem is investigated in the framework of a numerical technique available in the Fluent software, based on a volume of fluid (VOF) surface-tracking strategy and the enthalpy method to account for material solidification or melting.

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Keywords

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