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Research Article | Open Access | Just Accepted

Low friction and wear characteristics formed by mechanically induced surface nanocrystallization: A review of recent advances

Youwang TuYong HeLei Zhang( )Miao Song( )

State Key Laboratory of Powder Metallurgy, Central South University, Changsha 410083, China

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Abstract

Friction and wear of metallic materials are ubiquitous in modern life, resulting in significant energy consumption and property damage. The tribological performance of metallic materials is greatly affected by their surface characteristics, motivating the rapid development of surface treatment technology. As a simple method without changing the matrix composition, mechanically induced surface nanocrystallization has emerged as a promising strategy to achieve reduced friction coefficients and increased wear resistance for metals. This review highlights the systemic progress and prospects of mechanically induced surface nanocrystallization, emphasizing its impact on mitigating friction and wear in metals. The review begins by presenting various processing techniques for preparing surface nanostructures, followed by an in-depth discussion on the mechanisms of mechanically induced surface nanocrystallization and the effects of processing techniques and their parameters on surface nanocrystallization. Then, several methods for stabilizing nanocrystalline structures are briefly introduced. Furthermore, the review thoroughly examines the influence of surface nanocrystallization on the tribological properties and the underlying mechanisms. Finally, the potential applications and challenges of surface nanostructured configurations in friction and wear-related fields are thoroughly discussed. 

Friction
Cite this article:
Tu Y, He Y, Zhang L, et al. Low friction and wear characteristics formed by mechanically induced surface nanocrystallization: A review of recent advances. Friction, 2024, https://doi.org/10.26599/FRICT.2025.9440971

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Received: 07 November 2023
Revised: 24 May 2024
Accepted: 01 August 2024
Available online: 02 August 2024

© The author(s) 2025

The articles published in this open access journal are distributed under the terms of the Creative Commons Attribution 4.0 International License (http://creativecommons.org/licenses/by/4.0/).

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