2017
DOI: 10.1108/ilt-11-2015-0184
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Destabilization of lubrication oil micropool under charged conditions

Abstract: Purpose This paper aims to introduce a series of experimental results which are the extension of our previous novel observations (Xie et al., Soft Matter, 2011), which could be helpful for revealing the lubrication failure mechanism in bearings when they are exposed to an electrical environment. Design/methodology/approach An experimental apparatus where a ball was in contact with a glass disk coated with a semi-reflective chromium layer. A small volume of oil droplet was put into the microgap of the ball-di… Show more

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Cited by 4 publications
(4 citation statements)
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“…The friction coefficient after adding ILs is slightly larger than that under dry friction when the current is relatively small, due to the capillary force of the formed liquid meniscus. In contrast, when the current is increased gradually, influences of the capillary force become less significant because of the electrospreading effect of the liquid bridge (Xie et al, 2017). Therefore, the addition of ILs as the lubricant may improve the lubrication properties to some extent, due to the usage of lubricant droplet rather than full immersion of the tribopairs.…”
Section: Resultsmentioning
confidence: 99%
“…The friction coefficient after adding ILs is slightly larger than that under dry friction when the current is relatively small, due to the capillary force of the formed liquid meniscus. In contrast, when the current is increased gradually, influences of the capillary force become less significant because of the electrospreading effect of the liquid bridge (Xie et al, 2017). Therefore, the addition of ILs as the lubricant may improve the lubrication properties to some extent, due to the usage of lubricant droplet rather than full immersion of the tribopairs.…”
Section: Resultsmentioning
confidence: 99%
“…In addition to direct damage of the contacting surfaces, the charge that builds up between the two components can cause other types of lubricant failures as well. The lubricant film could collapse under a high electric charge, causing lubricating starvation (Xie et al, 2017). The thermal dielectric breakdown directly led to lubricant degradation (Didenko and Pridemore, 2012;Liu, 2014;Romanenko et al, 2015Romanenko et al, , 2016.…”
Section: Electrically Induced Failurementioning
confidence: 99%
“…In another study, that dealt with the effects of negative electric field in mechanisms was focused on the lubricant starvation in ball bearings [82]. Capillary action secures the replenishment of lubricating layer.…”
Section: Electric Field Influence On Thickness Of Lubricating Layermentioning
confidence: 99%