2022
DOI: 10.1007/s10570-022-04510-z
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Effect of particle concentration on lubrication performance of cellulose nanocrystalline (CNC) water-based lubricants: mixed lubrication regime

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Cited by 17 publications
(2 citation statements)
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“…Considering that the ACDs are nanodiscs, mending and polishing are pinpointed as the most likely friction-reduction mechanisms. These mechanisms have been previously implicated as a huge contributor in the friction-reduction mechanisms of cellulose nanocrystals . The impressive hydrophilicity of the ACDs ensures a constant supply of nanoparticles to withstand the high contact pressures during the friction process as previously reported with other hydrophilic nanoparticles serving as lubricant additives. , To buttress the positive impact of small-size nanoadditives, Qiang and co-researchers earlier observed the effect of size on friction reduction when they obtained a better friction-reduction performance with graphene quantum dots (2 nm) compared to graphene oxide (lateral size 1.5 μm) .…”
Section: Resultsmentioning
confidence: 82%
“…Considering that the ACDs are nanodiscs, mending and polishing are pinpointed as the most likely friction-reduction mechanisms. These mechanisms have been previously implicated as a huge contributor in the friction-reduction mechanisms of cellulose nanocrystals . The impressive hydrophilicity of the ACDs ensures a constant supply of nanoparticles to withstand the high contact pressures during the friction process as previously reported with other hydrophilic nanoparticles serving as lubricant additives. , To buttress the positive impact of small-size nanoadditives, Qiang and co-researchers earlier observed the effect of size on friction reduction when they obtained a better friction-reduction performance with graphene quantum dots (2 nm) compared to graphene oxide (lateral size 1.5 μm) .…”
Section: Resultsmentioning
confidence: 82%
“…The lubrication state of wind power equipment is generally reflected by the concentration of wear particles in the lubricant [ 184 ]. In the beginning phase of failure, poor lubrication can lead to particle wear or spalling of the bearing [ 185 ], when the characteristics of the failure can be identified using acoustic signals to distinguish whether the lubrication of the bearing is abnormal. Acoustic detection methods can accurately identify the concentration of solid particles in lubricants [ 186 ].…”
Section: Research On Bearings Lubrication Technology Of Wind Turbinementioning
confidence: 99%