Effects of groove-textured surfaces filled with Sn–Ag–Cu and MXene–Ti<sub>3</sub>C<sub>2</sub> composite lubricants on tribological properties of CSS-42L bearing steel

Yawen XUE; Chaohua WU; Xiaoliang SHI; Qipeng HUANG; Ahmed Mohamed Mahmoud IBRAHIM

doi:10.1007/s40544-021-0547-8

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Research Article | Open Access

Effects of groove-textured surfaces filled with Sn–Ag–Cu and MXene–Ti₃C₂ composite lubricants on tribological properties of CSS-42L bearing steel

Yawen XUE^{¹^,²}, Chaohua WU^{¹^,²}(

), Xiaoliang SHI^{¹^,²}(

), Qipeng HUANG^{¹^,²}, Ahmed Mohamed Mahmoud IBRAHIM^³

1School of Mechanical and Electronic Engineering, Wuhan University of Technology, Wuhan 430070, China

2Shenzhen Research Institute of Wuhan University of Technology, Shenzhen 518000, China

3Department of Production Engineering and Mechanical Design, Faculty of Engineering, Minia University, EI-Minya 61519, Egypt

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Graphical Abstract

Abstract

To improve the tribological performance of CSS-42L bearing steel, smooth surfaces (SSs), groove-textured surfaces (GSs), GSs with Sn–Ag–Cu (GSs–SAC), and GSs with Sn–Ag–Cu–Ti₃C₂ (GSs–SACT) were prepared on CSS-42L. In addition, experimental studies were conducted on tribological properties. The obtained results indicated that GSs–SACT exhibited the best anti-friction and noise reduction performances. These remarkable tribological performances were attributed to the synergistic effects of grooves, Sn–Ag–Cu, and MXene–Ti₃C₂. The inconsistent rules of frictional forces were improved by the grooves and SACT, which inhibit the friction-induced noise. The micro-nano size-effects of MXene–Ti₃C₂ enhanced the repairing effect and anti-friction property of composite lubricants, which improved the profile characteristics of GSs–SACT.

Keywords

tribological properties MXene CSS-42L Sn–Ag–Cu–Ti₃C₂ (SACT)grooves friction-induced noise

References

[1]

Qiu Z F, Wang F F, Li Q S, Zheng L J, Zhang F X, Zhang H. Corrosion and mechanical properties for Cr-coated CSS-42L bearing steel after Ti and C ions co-implantation. Appl Surf Sci 509: 145293 (2020)

Crossref Google Scholar

[2]

Wang F F, Zheng L J, Li Q S, Zhang F X, Chen X H, Zhang H. Corrosion properties of carbon ions implanted chromium coating prepared on CSS-42L aerospace bearing steel. Surf Coat Technol 349: 392–399 (2018)

Crossref Google Scholar

[3]

Wang F F, Zhou C G, Zheng L J, Zhang H. Improvement of the corrosion and tribological properties of CSS-42L aerospace bearing steel using carbon ion implantation. Appl Surf Sci 392: 305–311 (2017)

Crossref Google Scholar

[4]

Ji Z J, Zhang L, Xie G X, Xu W H, Guo D, Luo J B, Prakash B. Mechanical and tribological properties of nanocomposites incorporated with two-dimensional materials. Friction 8(5): 813–846 (2020)

Crossref Google Scholar

[5]

Zhai W Z, Bai L C, Zhou R H, Fan X L, Kang G Z, Liu Y, Zhou K. Recent progress on wear-resistant materials: Designs, properties, and applications. Adv Sci 8(11): 2003739 (2021)

Crossref Google Scholar

[6]

Mai Y J, Li Y G, Li S L, Zhang L Y, Liu C S, Jie X H. Self-lubricating Ti₃C₂ nanosheets/copper composite coatings. J Alloys Compd 770: 1–5 (2019)

Crossref Google Scholar

[7]

Cheng H, Zhao W J. Regulating the Nb₂C nanosheets with different degrees of oxidation in water lubricated sliding toward an excellent tribological performance. Friction: 1–13 (2021)

Google Scholar

[8]

Meng F N, Zhang Z Y, Gao P L, Kang R Y, Boyjoo Y, Yu J H, Liu T T. Excellent tribological properties of epoxy—Ti₃C₂ with three-dimensional nanosheets composites. Friction 9(4): 734–746 (2021)

Crossref Google Scholar

[9]

Ronchi R M, Arantes J T, Santos S F. Synthesis, structure, properties and applications of MXenes: Current status and perspectives. Ceram Int 45(15): 18167–18188 (2019)

Crossref Google Scholar

[10]

Zhang H, Wang L B, Chen Q, Li P, Zhou A G, Cao X X, Hu Q K. Preparation, mechanical and anti-friction performance of MXene/polymer composites. Mater Des 92: 682–689 (2016)

Crossref Google Scholar

[11]

Lian W Q, Mai Y J, Liu C S, Zhang L Y, Li S L, Jie X H. Two-dimensional Ti₃C₂ coating as an emerging protective solid-lubricant for tribology. Ceram Int 44(16): 20154–20162 (2018)

Google Scholar

[12]

Rosenkranz A, Grützmacher P G, Espinoza R, Fuenzalida V M, Blanco E, Escalona N, Gracia F J, Villarroel R, Guo L C, Kang R Y, et al. Multi-layer Ti₃C₂T_x-nanoparticles (MXenes) as solid lubricants—Role of surface terminations and intercalated water. Appl Surf Sci 494: 13–21 (2019)

Google Scholar

[13]

Guo L H, Zhang Y M, Zhang G, Wang Q H, Wang T M. MXene–Al₂O₃ synergize to reduce friction and wear on epoxy-steel contacts lubricated with ultra-low sulfur diesel. Tribol Int 153: 106588 (2021)

Google Scholar

[14]

Xue Y W, Shi X L, Lu G C, Zhou H Y, Chen Y, Shu J P. Tribological behavior of M50–Sn–Ag–Cu composites with curved microchannels. J Mater Eng Perform 29(4): 2190–2201 (2020)

Google Scholar

[15]

Liu X Y, Shi X L, Huang Y C, Deng X B, Yan Z, Xue B. Anti-friction and wear properties of the friction surface of M50–10 wt%(50Sn₄₀Ag₁₀Cu) composite. J Alloys Compd 765: 7–17 (2018)

Google Scholar

[16]

Lu G C, Shi X L, Zhang J, Zhou H Y, Xue Y W, Ibrahim A M M. Effects of surface composite structure with micro-grooves and Sn–Ag–Cu on reducing friction and wear of Ni₃Al alloys. Surf Coat Technol 387: 125540 (2020)

Google Scholar

[17]

Liu X Y, Shi X L, Huang Y C, Deng X B, Lu G C, Yan Z, Xue B. Tribological behavior and self-healing functionality of M50 material covered with surface micropores filled with Sn–Ag–Cu. Tribol Int 128: 365–375 (2018)

Google Scholar

[18]

Hu T C, Hu L T, Ding Q. Effective solution for the tribological problems of Ti–6Al–4V: Combination of laser surface texturing and solid lubricant film. Surf Coat Technol 206(24): 5060–5066 (2012)

Google Scholar

[19]

Arenas M A, Ahuir-Torres J I, García I, Carvajal H, de Damborenea J. Tribological behaviour of laser textured Ti₆Al₄V alloy coated with MoS₂ and graphene. Tribol Int 128: 240–247 (2018)

Google Scholar

[20]

Sadeghi M, Kharaziha M, Salimijazi H R. Double layer graphene oxide-PVP coatings on the textured Ti₆Al₄V for improvement of frictional and biological behavior. Surf Coat Technol 374: 656–665 (2019)

Google Scholar

[21]

Li X, Liu Q, Dong G N. Self-assembly membrane on textured surface for enhancing lubricity of graphene oxide nano-additive. Appl Surf Sci 505: 144572 (2020)

Crossref Google Scholar

[22]

Zhou H Y, Shi X L, Yang Z Y, Wu C H, Lu G C, Xue Y W. Tribological property and frictional noise performance of titanium alloys with Sn–Ag–Cu and TiC filled into surface dimples. Tribol Int 144: 106121 (2020)

Crossref Google Scholar

[23]

Hua X J, Puoza J C, Sun J G, Zhang P Y, Ji J H, Wang H, Fu H, Kang Z Y. Experimental analysis of friction and wear of laser microtextured surface filled with composite solid lubricant and lubricated with grease on sliding surfaces. J Tribol-T ASME 139: 021609 (2017)

Crossref Google Scholar

[24]

Zhang Q, Mo J L, Lu X D, Zhao J, Wang D W, Zhou Z R. Grooved-structure design for improved component damping ability. Tribol Int 123: 50–60 (2018)

Crossref Google Scholar

[25]

Yang J, Liu Z L, Cheng Q C, Liu X K, Deng T Y. The effect of wear on the frictional vibration suppression of water-lubricated rubber slat with/without surface texture. Wear 426–427: 1304–1317 (2019)

Crossref Google Scholar

[26]

Wang D W, Mo J L, Liu M Q, Ouyang H, Zhou Z R. Noise performance improvements and tribological consequences of a pad-on-disc system through groove-textured disc surface. Tribol Int 102: 222–236 (2016)

Crossref Google Scholar

[27]

Massi F, Berthier Y, Baillet L. Contact surface topography and system dynamics of brake squeal. Wear 265(11–12): 1784–1792 (2008)

Crossref Google Scholar

[28]

Chen G X, Zhou Z R, Kapsa P, Vincent L. Effect of surface topography on formation of squeal under reciprocating sliding. Wear 253(3–4): 411–423 (2002)

Crossref Google Scholar

[29]

Sherif H A. Investigation on effect of surface topography of pad/disc assembly on squeal generation. Wear 257(7–8): 687–695 (2004)

Crossref Google Scholar

[30]

Lu G C, Shi X L, Liu X Y, Zhou H Y, Chen Y. Effects of functionally gradient structure of Ni₃Al metal matrix self-lubrication composites on friction-induced vibration and noise and wear behaviors. Tribol Int 135: 75–88 (2019)

Crossref Google Scholar

[31]

Wang D W, Mo J L, Zhang Q, Zhao J, Ouyang H, Zhou Z R. The effect of the grooved elastic damping component in reducing friction-induced vibration. Tribol Int 110: 264–277 (2017)

Crossref Google Scholar

[32]

Mo J L, Wang Z G, Chen G X, Shao T M, Zhu M H, Zhou Z R. The effect of groove-textured surface on friction and wear and friction-induced vibration and noise. Wear 301 (1–2): 671–681 (2013)

Crossref Google Scholar

[33]

Xue Y W, Shi X L, Zhou H Y, Lu G C, Zhang J. Effects of groove-textured surface combined with Sn–Ag–Cu lubricant on friction-induced vibration and noise of GCr15 bearing steel. Tribol Int 148: 106316 (2020)

Crossref Google Scholar

Friction

Volume 10 Issue 7,
July 2022

Pages 1091-1113

DOI: 10.1007/s40544-021-0547-8

Cite this article:

XUE Y, WU C, SHI X, et al. Effects of groove-textured surfaces filled with Sn–Ag–Cu and MXene–Ti₃C₂ composite lubricants on tribological properties of CSS-42L bearing steel. Friction, 2022, 10(7): 1091-1113. https://doi.org/10.1007/s40544-021-0547-8

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Received: 01 March 2021

Revised: 30 April 2021

Accepted: 04 August 2021

Published: 17 November 2021

Open Access This article is licensed under a Creative Commons Attribution 4.0 International License, which permits use, sharing, adaptation, distribution and reproduction in any medium or format, as long as you give appropriate credit to the original author(s) and the source, provide a link to the Creative Commons licence, and indicate if changes were made.

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Effects of groove-textured surfaces filled with Sn–Ag–Cu and MXene–Ti3C2 composite lubricants on tribological properties of CSS-42L bearing steel

Graphical Abstract

Abstract

Keywords

References

Effects of groove-textured surfaces filled with Sn–Ag–Cu and MXene–Ti₃C₂ composite lubricants on tribological properties of CSS-42L bearing steel