Application of Electric-Arc Pulsed Mode for Obtaining Surfacings of Fe-Mo-Cr-Ti-Ni-Cu-Al-System

Abstract

Method of electric-arc melting with nonconsumable electrode in a protective argon atmosphere with using a pulsed mode was used to show possibility in principle of obtaining multi-component metallic surfacing of Fe-Mo-Cr-Ti-Ni-Cu-Al system on uncooled steel substrate. Features of structure and elemental composition were studied using scanning electron microscopy methods. Component intermixing of the surfacing is observed. Surfacing microhardness is 5 times greater than that of the substrate. «Surfacing-substrate» boundary has high adhesion strength.

Original language	English
Article number	012031
Journal	IOP Conference Series: Materials Science and Engineering
Volume	253
Issue number	1
DOIs	https://doi.org/10.1088/1757-899X/253/1/012031
Publication status	Published - 23 Oct 2017
Event	International Scientific-Practical Conference: Innovations in Fuel and Energy Complex and Mechanical Engineering, FEC 2017 - Kemerovo, Russian Federation Duration: 18 Apr 2017 → 21 Apr 2017

ASJC Scopus subject areas

Materials Science(all)
Engineering(all)

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Application of Electric-Arc Pulsed Mode for Obtaining Surfacings of Fe-Mo-Cr-Ti-Ni-Cu-Al-System. / Knyaz'Kov, Anatoly F.; Ditenberg, Ivan A.; Gavrilin, Aleksey N.; Grinyaev, Konstantin V.; Knyaz'Kov, Sergey A.; Smirnov, Ivan V.

In: IOP Conference Series: Materials Science and Engineering, Vol. 253, No. 1, 012031, 23.10.2017.

Research output: Contribution to journal › Conference article › peer-review

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title = "Application of Electric-Arc Pulsed Mode for Obtaining Surfacings of Fe-Mo-Cr-Ti-Ni-Cu-Al-System",

abstract = "Method of electric-arc melting with nonconsumable electrode in a protective argon atmosphere with using a pulsed mode was used to show possibility in principle of obtaining multi-component metallic surfacing of Fe-Mo-Cr-Ti-Ni-Cu-Al system on uncooled steel substrate. Features of structure and elemental composition were studied using scanning electron microscopy methods. Component intermixing of the surfacing is observed. Surfacing microhardness is 5 times greater than that of the substrate. «Surfacing-substrate» boundary has high adhesion strength.",

author = "Knyaz'Kov, {Anatoly F.} and Ditenberg, {Ivan A.} and Gavrilin, {Aleksey N.} and Grinyaev, {Konstantin V.} and Knyaz'Kov, {Sergey A.} and Smirnov, {Ivan V.}",

note = "Publisher Copyright: {\textcopyright} Published under licence by IOP Publishing Ltd. Copyright: Copyright 2017 Elsevier B.V., All rights reserved.; International Scientific-Practical Conference: Innovations in Fuel and Energy Complex and Mechanical Engineering, FEC 2017 ; Conference date: 18-04-2017 Through 21-04-2017",

year = "2017",

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doi = "10.1088/1757-899X/253/1/012031",

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T1 - Application of Electric-Arc Pulsed Mode for Obtaining Surfacings of Fe-Mo-Cr-Ti-Ni-Cu-Al-System

AU - Knyaz'Kov, Anatoly F.

AU - Ditenberg, Ivan A.

AU - Gavrilin, Aleksey N.

AU - Grinyaev, Konstantin V.

AU - Knyaz'Kov, Sergey A.

AU - Smirnov, Ivan V.

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Y1 - 2017/10/23

N2 - Method of electric-arc melting with nonconsumable electrode in a protective argon atmosphere with using a pulsed mode was used to show possibility in principle of obtaining multi-component metallic surfacing of Fe-Mo-Cr-Ti-Ni-Cu-Al system on uncooled steel substrate. Features of structure and elemental composition were studied using scanning electron microscopy methods. Component intermixing of the surfacing is observed. Surfacing microhardness is 5 times greater than that of the substrate. «Surfacing-substrate» boundary has high adhesion strength.

AB - Method of electric-arc melting with nonconsumable electrode in a protective argon atmosphere with using a pulsed mode was used to show possibility in principle of obtaining multi-component metallic surfacing of Fe-Mo-Cr-Ti-Ni-Cu-Al system on uncooled steel substrate. Features of structure and elemental composition were studied using scanning electron microscopy methods. Component intermixing of the surfacing is observed. Surfacing microhardness is 5 times greater than that of the substrate. «Surfacing-substrate» boundary has high adhesion strength.

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