Tribological behaviors of Ni-modified citric acid carbon quantum dot particles as a green additive in polyethylene glycol 被引量：6

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摘要 A novel green lubricating oil additive(carbon quantum dot(CQD)particle‐doped nickel(Ni‐CQD))was synthesized from citric acid and nickel acetate.The effects of CQD and Ni‐CQD nanoparticles on the tribological behaviors of polyethylene glycol(PEG200)were investigated under different loads and reciprocation speeds.The results indicate that CQD and Ni‐CQD particles can both enhance the lubrication properties of PEG200.However,the Ni‐CQD nanoparticles enhanced the lubrication properties more than the plain CQD particles did.The average friction coefficient and wear rate of PEG200 containing 2 wt%Ni‐CQDs were reduced by 35.5%and 36.4%,respectively,compared to PEG200 containing pure CQDs under a load of 8 N and reciprocation speed of 25 mm/s over 60 min.The friction and wear mechanisms are attributed to the fact that friction induces the Ni‐CQDs to participate in the formation of a tribofilm,resulting in a low friction coefficient and wear rate.

作者 Zhiqiang TU Enzhu HU Bangbang WANG Karl D DAVID Philipp SEEGER Martin MONEKE Ralph STENGLER Kunhong HU Xianguo HU

机构地区 Department of Chemical and Materials Engineering School of Mechanical Engineering Department of Mechanical Engineering Darmstadt Institute of Plastics Engineering

出处《Friction》 SCIE CSCD 2020年第1期182-197,共16页 摩擦（英文版）

基金 Financial support from the National Natural Science Foundation of China(Grant No.51505121) Anhui University Outstanding Young Talents Foreign Visiting and Training Program(gxgwfx 2018069) Anhui Provincial Natural Science Foundation(Grant Nos.1608085QE119) Natural Science Foundation Project of the Anhui Education Committee(KJ2017A536) Some of the experimental equipment used in this study in the Birmingham Centre for Cryogenic Energy Storage was obtained with support from the Engineering and Physical Sciences Research Council under the Eight Great Technologies:Energy Storage theme(EP/L017725/1)

关键词 FRICTION dynamics joint clearance numerical models impact durability

分类号 TE624.82 [石油与天然气工程—油气加工工程]

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