Dissimilar laser cladding of Inconel 718 powder on A-286 substrate: Microstructural evolution

M. Alizadeh-Sh; S. P.H. Marashi; E. Ranjbarnodeh; R. Shoja-Razavi; J. P. Oliveira

doi:10.2351/1.5124932

Dissimilar laser cladding of Inconel 718 powder on A-286 substrate: Microstructural evolution

M. Alizadeh-Sh, S. P.H. Marashi, E. Ranjbarnodeh, R. Shoja-Razavi, J. P. Oliveira

Research output: Journal Publication › Article › peer-review

15 Citations (Scopus)

Abstract

In this work, laser cladding of a Ni-based superalloy powder (Inconel 718) on a Fe-based superalloy (A-286) substrate was performed. The microstructural evolution was studied by optical and electron microscopy techniques, aided by energy dispersive spectroscopy. Additionally, the microhardness along the as-deposited parts was analyzed and correlated with the observed microstructure. It was found that other than austenitic dendrites, Nb-rich carbides, interdendritic Laves networks, and Ti (C, N) were formed; the latter was aided by the presence of pre-existing TiC particles in the substrate. Additionally, a slag oxide layer was seen on the clad surface of the fusion zone. The formation mechanisms of an unmixed zone in the shape of beach and peninsula are discussed.

Original language	English
Article number	022048
Journal	Journal of Laser Applications
Volume	32
Issue number	2
DOIs	https://doi.org/10.2351/1.5124932
Publication status	Published - 1 May 2020
Externally published	Yes

ASJC Scopus subject areas

Electronic, Optical and Magnetic Materials
Atomic and Molecular Physics, and Optics
Biomedical Engineering
Instrumentation

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title = "Dissimilar laser cladding of Inconel 718 powder on A-286 substrate: Microstructural evolution",

abstract = "In this work, laser cladding of a Ni-based superalloy powder (Inconel 718) on a Fe-based superalloy (A-286) substrate was performed. The microstructural evolution was studied by optical and electron microscopy techniques, aided by energy dispersive spectroscopy. Additionally, the microhardness along the as-deposited parts was analyzed and correlated with the observed microstructure. It was found that other than austenitic dendrites, Nb-rich carbides, interdendritic Laves networks, and Ti (C, N) were formed; the latter was aided by the presence of pre-existing TiC particles in the substrate. Additionally, a slag oxide layer was seen on the clad surface of the fusion zone. The formation mechanisms of an unmixed zone in the shape of beach and peninsula are discussed.",

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T1 - Dissimilar laser cladding of Inconel 718 powder on A-286 substrate

T2 - Microstructural evolution

AU - Alizadeh-Sh, M.

AU - Marashi, S. P.H.

AU - Ranjbarnodeh, E.

AU - Shoja-Razavi, R.

AU - Oliveira, J. P.

PY - 2020/5/1

Y1 - 2020/5/1

N2 - In this work, laser cladding of a Ni-based superalloy powder (Inconel 718) on a Fe-based superalloy (A-286) substrate was performed. The microstructural evolution was studied by optical and electron microscopy techniques, aided by energy dispersive spectroscopy. Additionally, the microhardness along the as-deposited parts was analyzed and correlated with the observed microstructure. It was found that other than austenitic dendrites, Nb-rich carbides, interdendritic Laves networks, and Ti (C, N) were formed; the latter was aided by the presence of pre-existing TiC particles in the substrate. Additionally, a slag oxide layer was seen on the clad surface of the fusion zone. The formation mechanisms of an unmixed zone in the shape of beach and peninsula are discussed.

AB - In this work, laser cladding of a Ni-based superalloy powder (Inconel 718) on a Fe-based superalloy (A-286) substrate was performed. The microstructural evolution was studied by optical and electron microscopy techniques, aided by energy dispersive spectroscopy. Additionally, the microhardness along the as-deposited parts was analyzed and correlated with the observed microstructure. It was found that other than austenitic dendrites, Nb-rich carbides, interdendritic Laves networks, and Ti (C, N) were formed; the latter was aided by the presence of pre-existing TiC particles in the substrate. Additionally, a slag oxide layer was seen on the clad surface of the fusion zone. The formation mechanisms of an unmixed zone in the shape of beach and peninsula are discussed.

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Dissimilar laser cladding of Inconel 718 powder on A-286 substrate: Microstructural evolution

Abstract

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