Control of the Structure and Wear Resistance of a Carbon-Nitrogen Austenitic Steel Coating Produced by Electron Beam Cladding

Control of the Structure and Wear Resistance of a Carbon-Nitrogen Austenitic Steel Coating Produced by Electron Beam Cladding

The study investigates an electron beam cladded coating of nitrogen-alloyed austenitic steel (24.4Cr, 16.4Mn, 0.18Ni, 1.1Si, 0.57С, 0.7N, rest Fe (wt %)). Cladding was performed by a continuous low-energy (27 keV) and low-current (0.02–0.04 A) focused electron beam on an electron beam system at a re...

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Bibliographic Details
Published in:Physical mesomechanics Vol. 24; no. 1; pp. 53 - 60
Main Authors: Panin, V. E., Narkevich, N. A., Durakov, V. G., Shulepov, I. A.
Format: Journal Article
Language:English
Published: Moscow Pleiades Publishing 2021
Springer Nature B.V
Subjects:
Alloying
Austenitic stainless steels
Carbon nitride
Chemical composition
Cladding
Classical Mechanics
Coefficient of friction
Electron beams
Materials Science
Nitrogen
Phase composition
Physics
Physics and Astronomy
Protective coatings
Solid State Physics
Wear resistance
Work hardening
Austenite
Carbonitrides
Electron beam cladding
Martensitic transformation
Twinning
Wear resistance
Coating
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Summary:The study investigates an electron beam cladded coating of nitrogen-alloyed austenitic steel (24.4Cr, 16.4Mn, 0.18Ni, 1.1Si, 0.57С, 0.7N, rest Fe (wt %)). Cladding was performed by a continuous low-energy (27 keV) and low-current (0.02–0.04 A) focused electron beam on an electron beam system at a residual pressure of 0.1 Pa. The microstructure, phase composition, and chemical composition of the coating were examined by OM/AES/XRD/SEM/EDS methods. The coating has no pores and is characterized by high work hardening and wear resistance. The formation of М 7 (С, N) 3 carbonitrides in the steel plays a crucial role in the control of the structure and wear resistance of the applied coating, because carbonitrides are able to distinguish between the lattice curvature zones and the stable translationally invariant lattice. Frictional loads arising during wear trigger a γ → α′ transformation. With increasing frictional load, the coefficient of friction decreases.
ISSN:1029-9599
1990-5424
DOI:10.1134/S1029959921010082