Materials Reports 2021, Vol. 35 Issue (z2): 33-37 |
INORGANIC MATERIALS AND CERAMIC MATRIX COMPOSITES |
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Research Progress of 2D Materials in Friction Mechanism and Lubrication Application |
LIU Xiaogang1,2,SUN Hong1, LIU Lincong1
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1 School of Mechanical Transportation Engineering, Guangxi University of Science and Technology, Liuzhou 545006, China 2 School of Automotive and Traffic Engineering, Guilin University of Aerospace Technology, Guilin 541004, China |
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Abstract 2D materials having a layered structure comprise atomic thickness, ultra-low shear strength, the high specific surface area and surface chemical stability. Due to their excellent performances, 2D materials have attracted considerable attention in the field of lubrication. When 2D materials were used in the field of lubrication, they can not only greatly improve the anti-friction performance of lubricating medium, but also solve the limitations of traditional additives, such as poor dispersion and failure in harsh environments. In this article, the nanoscale friction mechanisms of 2D materials including friction mechanism of interlayer and surface are summarized. In addition, the application of 2D materials as additives in the field of oil lubrication and water lubrication in terms of experimental content, lubrication performance and lubrication mechanism is elaborated.
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Published: 09 December 2021
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Fund:This work was financially supported by Guangxi Innovation Driven Development Major Special Fund Project(AA18242049) and Guangxi Robot Engineering Application in Key Laboratory Fund(20190206-2). |
About author:: Xiaogang Liu received his B.S., M.S. and Ph.D. degrees from Dalian University of Technology in1987, University of Science and Technology Beijing in 1995 and South China University of Technology in 2009, respectively. The professor of Guilin University of Aerospace Technology, Supervisor, published more than 10 papers in academic journals as the first or corresponding author. He won the second prize of Guilin Science and Technology Progress Award. Hong Sun received her B.S. degree from Anhui University of Science and Technology in 2018. She is currently pursuing her M.S. degree at School of Mechanical Transportation Engineering, Guangxi University of Science and Technology under the supervision of Prof. Xiaogang Liu. Her research has focused on research of mechanical devices and materials preparation. |
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1 温诗铸. 机械工程学报, 2007, 43(10), 1. 2 Nosonovsky M. Tribological Online, 2007, 2(2), 44. 3 Berman D, Erdemir A, Sumant A V. Materials Today, 2014, 17(1), 31. 4 王万平,屈文山,赵建国. 炭素技术, 2015, 34(6), 17. 5 Lee C, Li Q, Kalb W, et al. Science, 2010, 328(5974), 76. 6 Song H, Li N. Applied Physics A, 2011, 105(4), 827. 7 Chen Z, Liu Y, Gunsel S, et al. Langmuir, 2018, 34(4), 1635. 8 Hirano M. Friction, 2014, 2(2), 95. 9 Hirano M, Shinjo K. Physical Review B, 1990, 41(17), 11837. 10 Hirano M, Shinjo K, Kaneko R, et al. Physical Review Letters, 1997, 78(8), 1448. 11 Dienwiebel M, Pradeep N, Verhoeven G S, et al. Surface Science, 2005, 576(1-3), 197. 12 Feng X, Kwon S, Park J Y, et al. ACS Nano, 2013, 7(2), 1718. 13 Wijn A S D, Fusco C, Fasolino A. Physical Review E, 2010, 81, 46105. 14 Berman D, Deshmukh S A, Sankaranarayanan S K R S, et al. Science, 2015, 348(6239), 1118. 15 Leven I, Krepel D, Shemesh O, et al. Journal of Physical Chemical Letters, 2013, 4(1), 115. 16 Guo Y, Guo W, Chen C. Physical Review B, 2007, 76(15),155429. 17 Filleter T, McChesney J L, Bostwick A, et al. Physical Review Letters, 2009, 102(8), 86102. 18 Dong Y. Journal of Physics D Applied Physics, 2014, 47(5), 55305. 19 Li Q, Lee C, Carpick R W, et al. Physia Status Solidi B, 2010, 247(11-12), 2909. 20 Deng Z, Klimov N N, Solares S D, et al. Langmuir, 2012, 29(1), 235. 21 Smolyanitsky A, Killgore J P, Tewary V K. Physical Review B, 2012, 85(3), 35412. 22 Deng Z, Smolyanitsky A, Li Q, et al. Nature Materials, 2012, 11(12), 1032. 23 Chen Z, Liu Y, Luo J. Chinese Journal of Mechanical Engineering, 2016, 29(2), 439. 24 Zhao J, Li Y, Wang Y, et al. RSC Advances, 2017, 7(3), 1766. 25 Zhang X, Xu H, Wang J, et al. Nanoscale Research Letters, 2016, 11(1), 442. 26 Chen Z, Li X, Wang J, et al. ACS Nano, 2017, 11(1), 430. 27 白鸽玲,吴壮志. 润滑与密封, 2013, 38(4), 93. 28 Zhou Q, Huang J, Wang J, et al. RSC Advance, 2015, 5, 91802. 29 Lin J, Wang L, Chen G. Tribological Letters, 2011, 41(1), 209. 30 张伟,朱宏伟. 自然杂志, 2016, 38(2), 94. 31 Kumari S, Sharma O P, Gusain R, et al. ACS Applied Materials and Interfaces, 2015, 7(6), 3708. 32 Kumari S, Mungse H P, Gusain R, et al. Chemistry of Flat Materials, 2017, 3, 16. 33 Fan X, Wang L. Journal of Colloid Interface Science, 2015, 452, 98. 34 Sanes J, Avilés M, Saurín N, et al. Tribological International, 2017, 116, 371. 35 Xu Y, Peng Y, Dearn K D, et al. Wear, 2015, 342-343, 297. 36 Gusain R, Mungse H P, Kumar N, et al. Journal of Materials Chemistry A, 2016, 4(3), 926. 37 张丽丽,蒲吉斌,张广安,等. 摩擦学学报, 2015, 35(6), 746. 38 Zhang Y, Tang H, Ji X, et al. RSC Advances, 2013, 3(48), 26086. 39 Xie H, Jiang B, Dai J, et al. Materials, 2018, 11(2062),206. 40 Liu Y, Wang X, Pan G, et al. Science China Technological Sciences, 2013, 56(1), 152. 41 Cho D, Kim J, Kwon S, et al. Wear, 2013, 302, 981. 42 Hou X, Yang C, He J, et al. Industry Engineering Chemistry Research, 2015, 54(17), 4773. 43 乔玉林,赵海朝,臧艳,等. 无机材料学报, 2015, 30(1), 41. |
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