Preparation of Cu@SiO<sub>2</sub>composite nanoparticle and its tribological properties as water‐based lubricant additive

Liu, Tiantian; Zhou, Changhua; Gao, Chuanping; Zhang, Yujuan; Yang, Guangbin; Zhang, Pingyu; Zhang, Shengmao

doi:10.1002/ls.1487

Cited by 21 publications

(11 citation statements)

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“…The results showed that the Cu-Ni@dodecanethiol particles almost had no sign of aggregation and exhibited good dispersibility in different non-polar solvents. Hydrophobic Cu nanoparticles were incorporated into silica spheres to solve the problem that the di-n-hexadecyldithiophosphate-modified Cu could not be used as a water-based lubricant, and the large amount of Si–OH groups on the SiO 2 surfaces could contribute to a significant improvement of dispersion of Cu@SiO 2 particles in water-based lubricants [ 84 ]. Furthermore, the wear rate was reduced up to 94.1% when used as a lubricant additive in distilled water.…”

Section: Applicationsmentioning

confidence: 99%

Synthesis of Core–Shell Micro/Nanoparticles and Their Tribological Application: A Review

Chen

Lin

et al. 2020

Materials

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Owing to the diverse composition, adjustable performance, and synergistic effect among components, core–shell micro/nanoparticles have been widely applied in the field of tribology in recent years. The strong combination with the matrix and the good dispersion of reinforcing fillers in the composites could be achieved through the design of core–shell structural particles based on the reinforcing fillers. In addition, the performance of chemical mechanical polishing could be improved by optimizing the shell material coated on the abrasive surface. The physical and chemical state of the core–shell micro/nanoparticles played important effects on the friction and wear properties of materials. In this paper, the synthesis methods, the tribological applications (acted as solid/liquid lubricant additive, chemical mechanical polishing abrasives and basic units of lubricant matrix), and the functionary mechanisms of core–shell micro/nanoparticles were systematically reviewed, and the future development of core–shell micro/nanoparticles in tribology was also prospected.

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Section: Applicationsmentioning

confidence: 99%

Synthesis of Core–Shell Micro/Nanoparticles and Their Tribological Application: A Review

Chen

Lin

et al. 2020

Materials

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“…However, the emulsion may produce emulsion spots and stains, which may deteriorate the surface quality of strips. Thus, the water‐based lubricant has attracted more attention recently as an environmentally friendly fluid with unique features, such as low cost, high thermal conductivity, and better fluidity 7,8 . Nevertheless, the water‐based lubricant is limited significantly in the tribological filed on account of its internal performances, especially low viscosity and weak load‐carry capacity 8 .…”

Section: Introductionmentioning

confidence: 99%

“…Thus, the water‐based lubricant has attracted more attention recently as an environmentally friendly fluid with unique features, such as low cost, high thermal conductivity, and better fluidity 7,8 . Nevertheless, the water‐based lubricant is limited significantly in the tribological filed on account of its internal performances, especially low viscosity and weak load‐carry capacity 8 . To overcome the disadvantages of water‐based lubricant, carbon materials including graphene and graphene oxide (GO) have been extensively studied as additives owing to their good tribological ability, 9 unique mechanical property, 10 low shear strength, and so on 11 …”

Section: Introductionmentioning

confidence: 99%

“…7,8 Nevertheless, the water-based lubricant is limited significantly in the tribological filed on account of its internal performances, especially low viscosity and weak load-carry capacity. 8 To overcome the disadvantages of water-based lubricant, carbon materials including graphene and graphene oxide (GO) have been extensively studied as additives owing to their good tribological ability, 9 unique mechanical property, 10 low shear strength, and so on. 11 As an additive in the solvent, graphene has an excellent lubrication property in reducing the friction and wear between two contact surfaces for macrotribological applications.…”

Section: Introductionmentioning

confidence: 99%

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pH‐dependent lubrication mechanism of graphene oxide aqueous lubricants on the strip surface during cold rolling

Meng

Sun

Wang

et al. 2020

Surface & Interface Analysis

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The tribological performance and lubrication mechanism of graphene oxide (GO) aqueous lubricants with different pH levels on the strip surfaces during cold rolling were investigated. And triethanolamine (TEA) was used to adjust the pH levels of GO lubricants. The morphology of GO and physical characterization of GO lubricants were carried out. Four‐ball tribological tests and cold rolling experiments were conducted to obtain the tribological behaviors of GO lubricants on the strip surfaces. To figure out the lubrication mechanism, the surfaces of the rolled strips using GO lubricants were analyzed utilizing a series of experiments. The increase in the pH value of lubricants changed the intrinsic structure of GO, resulting in better dispersibility and wettability. The change of physical characteristics significantly improved the antifriction and antiwear properties of lubricants, and the alkaline lubricant (pH 9.0) exhibited the best lubrication performance. A diameter–height ratio (λd) applied by a calculation method was proposed to approximatively ascertain the lubrication regime during the cold rolling. The λd and the surface quality of the rolled strips indicated that the lubrication regime was the boundary lubrication when using the alkaline lubricant. Moreover, GO particles in the alkaline lubricant could repair the strip surface by mending effect and form the physically adsorbed layers. The layers prevented direct contact between rolled surfaces, further amending the surface quality of the rolled strips.

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“…Nanolubricants, prepared by adding nanoparticles to oil‐based lubricants, are therefore proposed and their lubricating properties are topic of recent review paper 7‐9 . The various classes of nanoparticles were explored 10‐24 . Joly‐Pottuz and coworkers noticed that the oil dispersion with only 1 wt% of WS 2 nanoparticles presents the friction coefficient below 0.04 and very low wear at a contact pressure of 0.83 GPa 20 .…”

Section: Introductionmentioning

confidence: 99%

SnS₂ nanosheets as an excellent lubricant additive in polyalphaolefin oil

Cao

et al. 2020

Lubrication Science

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This paper is devoted to investigate the friction‐reducing and wear protection of SnS2 nanosheets as lubricant additive in poly‐α‐olefin oil (PAO). SnS2 nanosheets, synthesised by a hydrothermal process, were characterised by Raman and X‐ray photoelectron spectroscopy (XPS). A ball‐on‐disk tribometer was used to compare the friction coefficient and wear when lubricated by PAO oil in absence and presence of SnS2 nanosheets. The worn surfaces were observed by SEM. The chemical compositions of tribofilm are analysed by XPS. The experiments showed that addition of SnS2 nanosheets are effective in reducing both friction and wear when lubricated by using base oil. XPS results shows that the enhanced tribological performance is due to a SnS2‐rich boundary film which is formed by deposit of SnS2 nanosheets on the contact area during the sliding process.

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Preparation of Cu@SiO₂composite nanoparticle and its tribological properties as water‐based lubricant additive

Cited by 21 publications

References 50 publications

Synthesis of Core–Shell Micro/Nanoparticles and Their Tribological Application: A Review

Synthesis of Core–Shell Micro/Nanoparticles and Their Tribological Application: A Review

pH‐dependent lubrication mechanism of graphene oxide aqueous lubricants on the strip surface during cold rolling

SnS₂ nanosheets as an excellent lubricant additive in polyalphaolefin oil

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Preparation of Cu@SiO2composite nanoparticle and its tribological properties as water‐based lubricant additive

Cited by 21 publications

References 50 publications

Synthesis of Core–Shell Micro/Nanoparticles and Their Tribological Application: A Review

Synthesis of Core–Shell Micro/Nanoparticles and Their Tribological Application: A Review

pH‐dependent lubrication mechanism of graphene oxide aqueous lubricants on the strip surface during cold rolling

SnS2 nanosheets as an excellent lubricant additive in polyalphaolefin oil

Contact Info

Product

Resources

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Preparation of Cu@SiO₂composite nanoparticle and its tribological properties as water‐based lubricant additive

SnS₂ nanosheets as an excellent lubricant additive in polyalphaolefin oil