On the Principles of the Additive Technology Implementation of Composite Magnetic Coating’s Formation on Non-Magnetic Substrates by Laser Welding of Micro Powders

Y.N. Kulchin; Nikolay G. Galkin; Evgenii Petrovich Subbotin; Vasiliy M. Dolgorook; Dmitrii S. Yatsko

doi:10.4028/www.scientific.net/SSP.245.230

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HomeSolid State PhenomenaSolid State Phenomena Vol. 245On the Principles of the Additive Technology...

On the Principles of the Additive Technology Implementation of Composite Magnetic Coating’s Formation on Non-Magnetic Substrates by Laser Welding of Micro Powders

Abstract:

The article discusses the formation of coatings with magnetic properties on non-magnetic substrates by the method of additive technology of metal powders using high power pulsed laser radiation. An instrumental base for the development of methods for creating local magnetic zones of a given configuration has been described. Approaches to create methods of additive welding of solid solution magnetic zones on the basis of micro-powders of metal alloys have been developed. The coatings with soft magnetic properties on the basis of powders of bronze and iron-containing "Inconel" alloy on non-magnetic substrates were obtained by laser welding. The structural inhomogeneity at the interface of the substrate and the solid solution were studied. Data on hardness and magnetic properties were obtained for formed magnetically soft materials.

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Periodical:

Solid State Phenomena (Volume 245)

Pages:

230-237

DOI:

https://doi.org/10.4028/www.scientific.net/SSP.245.230

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Online since:

October 2015

Authors:

Y.N. Kulchin, Nikolay G. Galkin, Evgenii Petrovich Subbotin, Vasiliy M. Dolgorook, Dmitrii S. Yatsko

Keywords:

Additive Welding Technology, Bronze, Functional Coatings, Hardness, Magnetic Properties, Melt Local Zone, Micro Powder, Robotic Laser System, Transition Metals

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References

[1] G.P. Dinda, A.K. Dasgupta, J. Mazumder, Laser aided direct metal deposition of Inconel 625 superalloy: microstructural evolution and thermal stability, Mater. Sci. Eng. A, 509 (2009) 98–104.