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Specific Features of the Phase Composition and Structure of a High‐Strength Multi‐Component Fe–W–Mo–Cr–V–Si–Mn–C Steel Synthesized via Laser Remelting
Author(s) -
Pushin Vladimir G.,
Kuranova Natalia N.,
Nikolaeva Nina V.,
Uksusnikov Aleksei N.,
Ustyugov Yurii M.,
Belosludtseva Elena S.,
Pushin Artem V.,
Svirid Aleksei E.
Publication year - 2015
Publication title -
advanced engineering materials
Language(s) - English
Resource type - Journals
SCImago Journal Rank - 0.938
H-Index - 114
eISSN - 1527-2648
pISSN - 1438-1656
DOI - 10.1002/adem.201400581
Subject(s) - materials science , carbide , rockwell scale , martensite , metallography , phase (matter) , metallurgy , scanning electron microscope , austenite , microstructure , composite material , chemistry , organic chemistry
The results of studying the phase composition, structure, and hardness of a synthesized multi‐component Fe–W–Mo–Cr–V–Si–Mn–C steel are presented. Investigations were performed via using methods of the analytical transmission and scanning structural and orientation electron microscopy, optical metallography, X‐ray energy‐dispersion spectroscopy, X‐ray phase and structure analysis, measurements of Rockwell hardness. It has been established that the steel has a high hardness (62 HRC) and is in an ultrafine‐grained composite‐wise martensite–multi‐carbide state. In this case, all different type of carbides are uniformly distributed over the volume of the steel and are of either nano‐ or submicro‐crystalline size in dependence of the type of the carbide phase. The state of the steel, synthesized via laser remelting, from the viewpoint of the character of the spatial distribution of the chemical and phase constituents, has turned out to be very much resembling that one which is typical of some high‐entropy alloys already studied.