The formation of gradient nanostructured medium carbon steel via mild, moderate, and severe ultrasonic nanocrystal surface modification options: Assessment on wear and friction performance

[Display omitted] •Mild, moderate and severe UNSM has distinctive capacity on AISI 1050 microstructural innovations.•Mild and moderate UNSM creates quite lower rough surfaces comparable to grinded surface.•Severe UNSM contributes great improvement on hardening and compressive residual stress.•Mild a...

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Published in:Materials science & engineering. B, Solid-state materials for advanced technology Solid-state materials for advanced technology, 2022-11, Vol.285, p.115970, Article 115970
Main Authors: Unal, Okan, Maleki, Erfan, Karademir, Ibrahim, Husem, Fazil, Efe, Yusuf, Das, Turan
Format: Article
Language:English
Subjects:
Coefficient of friction
Compressive properties
Different static loads
Friction
Grain size
Medium carbon steels
Microhardness
Nanocrystals
Static loads
Surface hardness
Surface roughness
Thickness
Ultrasonic nanocrystal surface modification
Wear
Wear performance
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Summary:[Display omitted] •Mild, moderate and severe UNSM has distinctive capacity on AISI 1050 microstructural innovations.•Mild and moderate UNSM creates quite lower rough surfaces comparable to grinded surface.•Severe UNSM contributes great improvement on hardening and compressive residual stress.•Mild and moderate UNSM demonstrate remarkable COF and wear performance. In this study, the effect of UNSM applied under different static loads on the microstructure and friction-wear performance were detected. A significant correlation was noticed between the increase of the static load and nanocrystalline layer thickness. Both nanocrystallization layer and deformation depth increased significantly after UNSM. The grain size was measured under 500 nm for M series and 100 nm for O and S series of UNSM static loads. Surface integrity improved remarkably after mild (M) and moderate (O) UNSM (Ra values are 0.25 µm and 0.7 µm, respectively). The roughness was achieved approximately under 1 µm for M and O types and 2 µm for S types of operations. A 65% increase in hardness emerged by severe UNSM with a surface hardness of approximately 375–430 HV. UNSM demonstrated remarkable results on friction-wear performance by providing higher microhardness and residual compressive stress improvements with lower surface roughness.
ISSN:0921-5107
1873-4944
DOI:10.1016/j.mseb.2022.115970