Lithium-based ionic liquids as novel lubricant additives for multiply alkylated cyclopentanes (MACs)

Zenghong SONG; Yongmin LIANG; Mingjin FAN; Feng ZHOU; Weimin LIU

doi:10.1007/s40544-013-0019-x

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Research Article | Open Access

Lithium-based ionic liquids as novel lubricant additives for multiply alkylated cyclopentanes (MACs)

Zenghong SONG^{¹^,²}, Yongmin LIANG^¹, Mingjin FAN^{¹^,^*}(

), Feng ZHOU^¹, Weimin LIU^{¹^,^*}(

)

¹ State Key Laboratory of Solid Lubrication, Lanzhou Institute of Chemical Physics, Chinese Academy of Sciences, Lanzhou 730000, China

² University of Chinese Academy of Sciences, Beijing 100049, China

Show Author Information

An erratum to this article is available online at:

https://doi.org/10.1007/s40544-014-0066-y

Abstract

Two lithium-based ionic liquids (ILs, L-C3N3, and L-P3N3) were synthesized and evaluated as novel lubricant additives for multiply alkylated cyclopentanes (MACs). They were found to be approximately 1.0% soluble in MACs at room temperature (RT), whereas traditional ILs, such as 1-ethyl-3-methylimidazolium tetrafluoroborate (L-B102), 1-hexyl-3-methylimidazolium hexafluorophosphate (L-P106), and 1-ethyl-3- methylimidazolium bis(trifluoromethylsulfonyl)imide (L-F102), could not be dissolved in this base oil. Friction tests indicated that these ILs exhibit excellent friction-reducing and anti-wear properties both at RT and at 100 ℃. They can improve the tribological properties of MACs at RT to a greater extent than the commonly used lubricant zinc dialkyldithiophosphate (T204), even at a concentration of 0.1%. The load ramp test showed that MACs with L-C3N3 and L-P3N3 also exhibit high load-carrying capabilities. Scanning electron microscope (SEM) and X-ray photoelectron spectrometer (XPS) results indicated that physical adsorption and complex tribochemical reactions occurred between the ILs and metal surfaces during the sliding process, thereby forming a surface protective film that significantly contributed to the excellent tribological properties of the new ILs.

Keywords

tribology ionic liquids sym-triazine cyclotriphosphazene additives multiply alkylated cyclopentanes

References

[1]

Wang Y, Wang L P, Mo Y F, Xue Q J. Fabrication and tribological behavior of patterned multiply-alkylated cyclopentanes (MACs)-octadecyltrichlorosilane (OTS) dual- component film by a soft lithographic approach. Tribol Lett 41:163-170 (2011)

Crossref Google Scholar

[2]

Sun C F, Zhang M, Zhou F, Gao P, Xia Y Q, Liu W M. Tribological behavior of multiply-alkylated cyclopentanes (MACs)-Cu canoparticles composite thin film. J Macromol Sci Part B 50:1006-1017 (2011)

Crossref Google Scholar

[3]

Ma J Q, Pang C J, Mo Y F, Bai M W. Preparation and tribological properties of multiply-alkylated cyclopentane (MAC)-octadecyltrichlorosilane (OTS) double-layer film on silicon. Wear 263:1000-1007 (2007)

Crossref Google Scholar

[4]

Wang Y, Wang L P, Xue Q J, Yuan N Y, Ding J N. A facile method to improve tribological properties of silicon surface by combining nanogrooves patterning and thin film lubrication. Colloid Surface A: Physicochem Eng Aspects 372:139-145 (2010)

Crossref Google Scholar

[5]

Wang Y, Mo Y, Zhu M, Bai M W. Wettability and nanotribological property of multiply alkylated cyclopentanes (MACs) on silicon substrates. Tribol T 53:219-223 (2010)

Crossref Google Scholar

[6]

Jin C M, Ye C F, Phillips B S, Zabinski J S, Liu X Q, Liu W M, Shreeve J M. Polyethylene glycol functionalized dicationic ionic liquids with alkyl or polyfluoroalkyl substituents as high temperature lubricants. J Mater Chem 16:1529-1535 (2006)

Crossref Google Scholar

[7]

Zhao H. Innovative applications of ionic liquids as “green” engineering liquids. Chem Eng Comm 193:1660-1677 (2006)

Crossref Google Scholar

[8]

Suzuki A, Shinka Y, Masuko M. Tribological characteristics of imidazolium-based room temperature ionic liquids under high vacuum. Tribol Lett 27:307-313 (2007)

Crossref Google Scholar

[9]

Ye C F, Liu W M, Chen Y X, Yu L G. Room-temperature ionic liquids: A novel versatile lubricant. Chem Commun 21:2244-2245 (2001)

Crossref Google Scholar

[10]

Zhou F, Liang Y M, Liu W M. Ionic liquid lubricants: Designed chemistry for engineering applications. Chem Soc Rev 38:2590-2599 (2009)

Crossref Google Scholar

[11]

Song Z H, Fan M J, Liang Y M, Zhou F, Liu W M. Lithium-based ionic liquids: In situ-formed lubricant additive only by blending. Tribol Lett 49:127-133 (2013)

Crossref Google Scholar

[12]

Fan M J, Song Z H, Liang Y M, Zhou F, Liu W M. In situ formed ionic liquids in synthetic esters for significantly improved lubrication. ACS Appl Mater Interfaces 4:6683-6689 (2012)

Crossref Google Scholar

[13]

Tamura T, Yoshida K, Hachida T, Tsuchiya M, Nakamura M, Kazue Y, Tachikawa N, Dokko K, Watanabe M. Physicochemical properties of glyme-Li salt complexes as a new family of room-temperature ionic liquids. Chem Lett 39:753-755 (2010)

Crossref Google Scholar

[14]

Allcock H R, Ravikiran R, O’Connor S J M. Effect of oligo(ethyleneoxy)cyclotriphosphazenes, tetraglyme, and other small molecules on the ionic conductivity of the poly[bis(methoxyethoxyethoxy)phosphazene] (MEEP)/lithium triflate system. Macromolecules 30:3184-3190 (1997)

Crossref Google Scholar

[15]

Wen S J, Richardson T J, Ghantous D I, Striebel K A, Ross P N, Cairns E J. FTIR characterization of PEO+LiN(CF₃SO₂)₂ electrolytes. J Electroanal Chem 408:113-118 (1996)

Crossref Google Scholar

[16]

http://srdata.nist.gov/xps/, 2013.

[17]

Liu W M, Zhu J M, Liang Y M. Effect of bridged cyclotriphosphazenes as lubricants on the tribological properties of a steel-on-steel system. Wear 258:725-729 (2005)

Crossref Google Scholar

[18]

Wang H Z, Lu Q M, Ye C F, Liu W M, Cui Z J. Friction and wear behaviors of ionic liquid of alkylimidazolium hexafluorophosphates as lubricants for steel/steel contact. Wear 256:44-48 (2004)

Crossref Google Scholar

[19]

Xia Y Q, Wang S J, Zhou F, Wang H Z, Lin Y M, Xu T. Tribological properties of plasma nitrided stainless steel against SAE52100 steel under ionic liquid lubrication condition. Tribol Int 39:635-640 (2006)

Crossref Google Scholar

[20]

Lu R, Mori S, Kobayashi K, Nanao H. Study of tribochemical decomposition of ionic liquids on a nascent steel surface. Appl Surf Sci 255:8965-8971 (2009)

Crossref Google Scholar

Friction

Volume 1 Issue 3,
September 2013

Pages 222-231

DOI: 10.1007/s40544-013-0019-x

Cite this article:

SONG Z, LIANG Y, FAN M, et al. Lithium-based ionic liquids as novel lubricant additives for multiply alkylated cyclopentanes (MACs). Friction, 2013, 1(3): 222-231. https://doi.org/10.1007/s40544-013-0019-x

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Received: 11 April 2013

Revised: 31 May 2013

Accepted: 14 June 2013

Published: 06 September 2013

This article is published with open access at Springerlink.com

Open Access: This article is distributed under the terms of the Creative Commons Attribution License which permits any use, distribution, and reproduction in any medium, provided the original author(s) and source are credited.