Capillary electroosmosis properties of water lubricants with different electroosmotic additives under a steel-on-steel sliding interface

Bin, Feng; Liu, Zhiqiang; Zhang, Tao; Liu, Jiawei; Hu, Xiaodong; Guan, Jiju; Xu, Xuefeng

doi:10.1007/s40544-021-0507-3

Cited by 7 publications

(6 citation statements)

References 53 publications

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“…The different morphology of the wear tracks and ball surface indicates that the wear mechanism under the two sliding motions is different. According to Feng et al, a hard iron oxide layer is formed on the worn surface when sliding under deionized water [38], which is also proved by the Raman mapping results in figure 8. The hard iron oxide layer (Fe 2 O 3 ) can protect the disk from being worn, thus decreasing the wear rate of the disk under USM.…”

Section: Friction and Wear Of Aisi E52100 Steel Lubricated By Pao 40 ...mentioning

confidence: 68%

“…In terms of USM, the worn area of the PTFE substrate is relatively smooth, which is accompanied by the production of a large amount of parallel slight ploughings. The parallel slight plowings are attributed to the discrete transfer layer [38]. Moreover, the discrete transfer layer could also decrease the COF and wear rate under USM.…”

Section: Friction and Wear Of Dlc Coating And Ptfe Bulk Materialsmentioning

confidence: 91%

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A comparison of wear between unidirectional and reciprocating sliding motions under different applied loads and lubricants

Liu,

Li,

et al. 2023

Phys. Scr.

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Exploring the wear mechanisms of tribo-pairs is essential to reducing friction and wear. Although it has been known that the wear mechanisms between reciprocating sliding motion (RSM) and unidirectional sliding motion (USM) are different, the differences are seldom reported, which causes trouble for many researchers in selecting proper tribo-pairs or wear test methods. Herein, we systematically explore the effect of RSM and USM on the wear mechanism for several typical friction and lubricant materials, such as alloys, liquids, and solid lubricants. It is found that tribo-pairs suffer unstable sliding under RSM, and sliding speed as well as sliding direction change frequently, which makes it difficult to form a transfer layer or tribo-chemical reaction film, leading to high friction and abrasive wear for hard alloys and DLC coating. Additionally, the quasi-static stage under RSM, when lubricated with polyalphaolefin (PAO) 40, does not facilitate elastohydrodynamic (EHD) lubrication, which typically prevents wear. However, stable sliding under USM could lead to adhesive wear, increasing the friction coefficient for soft TC4 alloys. Although wear under RSM is generally higher than that under USM, increasing the applied load could diminish the wear difference for hard metals.

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Section: Friction and Wear Of Aisi E52100 Steel Lubricated By Pao 40 ...mentioning

confidence: 68%

Section: Friction and Wear Of Dlc Coating And Ptfe Bulk Materialsmentioning

confidence: 91%

A comparison of wear between unidirectional and reciprocating sliding motions under different applied loads and lubricants

Liu,

Li,

et al. 2023

Phys. Scr.

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“…To ensure the considerable electroosmotic performance of the compound cutting fluid and taking into account the amount of general EP additive, the concentration of MOA-3P was set at 0.75 wt% in preparing the water-based cutting fluid (named WCF). To further improve the electroosmotic performance, electroosmotic regulators are often added to the cutting fluid [16,27]. The electroosmotic regulation characteristic of cutting fluid with more complex components is still unclear, which limits the application of the electroosmosis effect in tribology.…”

Section: Electroosmotic Characteristics Of Compound Cutting Fluidsmentioning

confidence: 99%

“…Zhao et al [19] and Brown et al [20] also indicated that the absolute value of the zeta potential decreased with increased ionic strength, which was due to the compression of the EDL by high ionic strength to reduce the charge density in the EDL. Additionally, ionic surfactants adsorbed to charged surfaces by electrostatic or van der Waals forces could significantly affect the zeta potential and have been commonly used to regulate EOF [21][22][23][24][25][26][27]. At present, there is still little research on zeta potentials at friction material/cutting-fluid interfaces, and the influences of cutting-fluid components on zeta potential and EOF need to be further revealed.…”

Section: Introductionmentioning

confidence: 99%

Effects of the Electric Double Layer Characteristic and Electroosmotic Regulation on the Tribological Performance of Water-Based Cutting Fluids

Zhang,

Liu,

Luan

et al. 2023

Micromachines

Self Cite

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The electroosmosis effect is a complement to the theory of the traditional capillary penetration of cutting fluid. In this study, based on the electric double layer (EDL) characteristics at friction material/solution interfaces, the influences of additives and their concentrations on capillary electroosmosis were investigated, and a water-based cutting-fluid formulation with consideration to the electroosmosis effect was developed. The lubrication performance levels of cutting fluids were investigated by a four-ball tribometer. The results show that the EDL is compressed with increasing ionic concentration, which suppresses the electroosmotic flow (EOF). The specific adsorption of OH− ions or the dissociation of surface groups is promoted as pH rises, increasing the absolute zeta potential and EOF. The polyethylene glycol (PEG) additive adsorbed to the friction material surface can keep the shear plane away from the solid surface, reducing the absolute zeta potential and EOF. The electroosmotic performance of cutting fluid can be improved by compounding additives with different electroosmotic performance functions. Furthermore, electroosmotic regulators can adjust the zeta potential by the electrostatic adsorption mechanism, affecting the penetration performance of cutting fluid in the capillary zone at the friction interface. The improvement in the tribological performance of cutting fluid developed with consideration given to the electroosmosis effect is attributed to the enhancement of the penetration ability of the cutting fluid and the formation of more abundant amounts of lubricating film at the interface.

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“…Guo et al [25] achieved low-friction coefficients (0.01-0.03) by employing self-mated ceramics, self-mated cemented carbide, and cemented carbide/ceramic under water lubrication. Feng et al [26] found that the deionized water (DI water) containing an electroosmotic promoter (sodium lauriminodipropionate (SLI)) reduced the coefficient of friction and wear scar diameter, whereas, that with an electroosmotic suppressant (cetyltrimethylammonium bromide (CTAB)), exhibited an opposite behavior. Ji et al [27] reported that glyceryl monostearate (GMS)-filled microcapsules largely improved the tribological properties of drilling mud.…”

Section: Additives In Water-based Lubricationmentioning

confidence: 99%

A review of advances in tribology in 2020–2021

Meng

et al. 2022

Friction

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Around 1,000 peer-reviewed papers were selected from 3,450 articles published during 2020–2021, and reviewed as the representative advances in tribology research worldwide. The survey highlights the development in lubrication, wear and surface engineering, biotribology, high temperature tribology, and computational tribology, providing a show window of the achievements of recent fundamental and application researches in the field of tribology.

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Capillary electroosmosis properties of water lubricants with different electroosmotic additives under a steel-on-steel sliding interface

Cited by 7 publications

References 53 publications

A comparison of wear between unidirectional and reciprocating sliding motions under different applied loads and lubricants

A comparison of wear between unidirectional and reciprocating sliding motions under different applied loads and lubricants

Effects of the Electric Double Layer Characteristic and Electroosmotic Regulation on the Tribological Performance of Water-Based Cutting Fluids

A review of advances in tribology in 2020–2021

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