Effects of laser power and speed on keyhole formation during additive manufacturing by laser-powder bed fusion
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2021
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BRAZIL MRS MEETING, 19th; INTERNATIONAL UNION OF MATERIALS RESEARCH SOCIETIES - INTERNATIONAL CONFERENCE ON ELECTRONIC MATERIALS
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Unique microstructures are generated by the laser powder bed fusion (L-PBF) process of
additive manufacturing. The moving molten metal pool created by the laser beam leaves a
metallographic evidence, here called melt pool profile. The melt pool profile is easily
identified in many alloys owing to the severe segregation at the beginning of the epitaxial
cellular solidification, on the border of the remelted zone. The resulting microstructure is
associated with the laser scanning strategy used in building the piece. Twenty-four different
conditions of laser beam speed and power were adopted for a bed of plasma atomized
powder of a Nb-48% Ti alloy. Width and depth of the melt pool profiles in the top layer of all
samples were analyzed by optical microscopy. For lower energy densities and faster laser
scanning speeds, the shape of the melt pool profile is nearly parabolic. When the speed
decreases, within a certain limit dependent on the laser power, the shape changes to a
characteristic keyhole-type profile, with a larger depth to width ratio. The keyhole profile is
due to the presence of a wide, shallow parabolic pool and a narrow and deep pool formed by
a transient evaporation cavity. The experimental results are compared to the available
literature.
Como referenciar
LANDGRAF, FERNANDO J.G.; MORAIS, WILLY A. de; GUZMAN, JHOAN; MARTORANO, MARCELO; NOBRE, RAFAEL de M.; NEVES, MAURICIO M. das. Effects of laser power and speed on keyhole formation during additive manufacturing by laser-powder bed fusion. In: BRAZIL MRS MEETING, 19th; INTERNATIONAL UNION OF MATERIALS RESEARCH SOCIETIES - INTERNATIONAL CONFERENCE ON ELECTRONIC MATERIALS, August 30 - September 3, 2021, Online. Abstract... São Carlos, SP: Aptor Software, 2021. p. 656-656. Disponível em: http://repositorio.ipen.br/handle/123456789/32831. Acesso em: 30 Dec 2025.
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