Lubrication mechanisms of hexagonal boron nitride nano-additives water-based lubricant for steel–steel contact

Abdollah, Mohd Fadzli Bin; Amiruddin, Hilmi; Azmi, Muhammad Alif; Tahir, Noor Ayuma Mat

doi:10.1177/1350650120940173

Cited by 22 publications

(23 citation statements)

References 29 publications

(44 reference statements)

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“…However, when mass fractions of CNOs in the CSCG‐FG exceeds 0.10 wt%, the aCoF increased with the increase amounts of CNOs , which may be due to the agglomeration of CNOs 14 and resulted in the increase of abrasive wear 19,27 . This has also been reported in the other literatures 43–45 …”

Section: Discussionsupporting

confidence: 68%

Effects of carbon nano onions on the tribological performance of food‐grade calcium sulfonate complex grease

Wang

Qian

Gong

et al. 2021

Lubrication Science

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To improve the lubricity of the as‐prepared food‐grade calcium‐based grease, the effects of nano‐additive carbon nano onions (CNOs) on the tribological properties are systematically investigated using a ball‐disc wear tester. The properties of CNOs‐containing food‐grade calcium sulfonate complex greases (CSCG‐FG) were characterised by thermogravimetric analyser, rheometer and electrochemical workstation, Listeria monocytogenes, X‐ray photoelectron spectrometer and Raman spectrometer. The results revealed that pure and CNOs‐containing CSCG‐FG were proved to be safe. The average coefficient of friction (aCoF) and wear volume of the disc at CSCG‐FG of 0.10 wt% CNOs were the minimal values, which were 31.4 and 70.0% less than that of pure CSCG‐FG at 25°C and greatly lower than that of similar commercial food‐grade grease. At high temperature, CNOs‐containing CSCG‐FG had lower aCoFs and torques. CSCG‐FG of 0.10 wt% CNOs would be most possibly used in engineering applications and the results will provide valuable insight into developing food‐grade lubricants.

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Section: Discussionsupporting

confidence: 68%

Effects of carbon nano onions on the tribological performance of food‐grade calcium sulfonate complex grease

Wang

Qian

Gong

et al. 2021

Lubrication Science

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“…Wei et al [34] prepared GO/chitosang-PNIPAM nanohybrids by combining GO and brush-like chitosan-based copolymer (chitosan-graftpoly (N-isopropylacrylamide), chitosan-g-PNIPAM) for water-based lubrication and found that it reduced the average COF by 40% compared to raw GO and by 84% compared to a single copolymer, and reduced wear rates by 15% and 47%, respectively. Bin Abdollah et al [35] proposed that increasing the amount of hexagonal boron nitride additive may cause the lubricating state to change from mixed lubrication to hydrodynamic, allowing nanoparticles to aggregate, resulting in increased friction. Liu et al [36] found the surface modification endowed SiO 2 with smaller particle size and better dispersibility, significantly reduced the wear of SiO 2(TESPT) /NBR.…”

Section: Additives In Water-based Lubricationmentioning

confidence: 99%

A review of advances in tribology in 2020–2021

Meng

et al. 2022

Friction

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Around 1,000 peer-reviewed papers were selected from 3,450 articles published during 2020–2021, and reviewed as the representative advances in tribology research worldwide. The survey highlights the development in lubrication, wear and surface engineering, biotribology, high temperature tribology, and computational tribology, providing a show window of the achievements of recent fundamental and application researches in the field of tribology.

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“…Meanwhile, it can generate a boron oxide (B 2 O 3 ) friction chemical film by friction chemical reaction. Abdollah et al [ 78 ] found that h-BN can significantly improve the lubricating properties of pure water, and the appropriate increase in h-BN concentration can change the lubrication state of water-based lubricants from mixed lubrication to hydrodynamic lubrication. Ma et al [ 79 ] successfully exfoliated a flake nanosheet h-BN with 100 nm ultrathin thickness from a block h-BN and compared the effects of the two forms of h-BN on the lubricating properties of base oils.…”

Section: Single Nanoadditivementioning

confidence: 99%

A Review of Nanomaterials with Different Dimensions as Lubricant Additives

et al. 2022

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Lubricant additives can effectively enhance the performance and environmental adaptability of lubricants and reduce the energy loss and machine wear caused by friction. Nanomaterials, as important additive materials, have an essential role in the research and development of new lubricants, whose lubrication performances and mechanisms are not only related to their physical and chemical properties, but also influenced by the geometric shape. In this paper, the friction reduction and antiwear performances of nanomaterials as lubricant additives are first reviewed according to the classification of the dimensions, and their lubrication mechanisms and influence rules are revealed. Second, the recent research progress of composite nanomaterials as lubrication additives is introduced, focusing on their synergistic mechanism to improve the lubrication performance further. Finally, we briefly discuss the challenges faced by nanoadditives and provide an outlook on future research. The review expects to provide new ideas for the selection and development of lubricant additives to expand the application of nanoadditives.

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Lubrication mechanisms of hexagonal boron nitride nano-additives water-based lubricant for steel–steel contact

Cited by 22 publications

References 29 publications

Effects of carbon nano onions on the tribological performance of food‐grade calcium sulfonate complex grease

Effects of carbon nano onions on the tribological performance of food‐grade calcium sulfonate complex grease

A review of advances in tribology in 2020–2021

A Review of Nanomaterials with Different Dimensions as Lubricant Additives

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