Scalable preparation of functionalized graphite nanoplatelets via magnetic grinding as lubricity-enhanced additive

Graphite nanoplatelets were prepared by a novel magnetic-grinding method using self-made equipments. Under a variant magnetic field, magnetic needles collided at a high rotating speed and exfoliated pristine graphite into graphite nanoplatelets with high efficiency. The obtained graphite nanoplatele...

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Published in	Journal of Central South University Vol. 23; no. 11; pp. 2800 - 2808
Main Authors	Ji, Hai-bin, He, Zhi-wei, Song, Sha-sha, Zhao, Zeng-dian
Format	Journal Article
Language	English
Published	Changsha Central South University 01.11.2016 Springer Nature B.V
Subjects	Chemical and Environmental Engineering Coefficient of friction Engineering Graphite Grinding Lubricants Lubricity Materials Metallic Materials Metallurgy Platelets (materials) Tribology silanization lubricant additives magnetic grinding graphite nanoplatelets
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ISSN	2095-2899 2227-5223
DOI	10.1007/s11771-016-3343-2

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Abstract	Graphite nanoplatelets were prepared by a novel magnetic-grinding method using self-made equipments. Under a variant magnetic field, magnetic needles collided at a high rotating speed and exfoliated pristine graphite into graphite nanoplatelets with high efficiency. The obtained graphite nanoplatelets are highly crystalline, and the thickness is less than 10 nm. Moreover, the surface area could reached 738.1 m 2 /g with a grinding time of 4 h. Silanized graphite nanoplatelets can disperse well in SG 15W-40 engine oil and serve as lubricant additive. Tribological results indicate that the friction coefficient and wear-scar of the friction pairs are lower than 76% and 41%, respectively, by adding 1.5‰ (mass fraction) of silanized graphite nanoplatelets. Notably, the functionalized graphite nanoplatelets can realize large-scale production and commercial application.
AbstractList	Graphite nanoplatelets were prepared by a novel magnetic-grinding method using self-made equipments. Under a variant magnetic field, magnetic needles collided at a high rotating speed and exfoliated pristine graphite into graphite nanoplatelets with high efficiency. The obtained graphite nanoplatelets are highly crystalline, and the thickness is less than 10 nm. Moreover, the surface area could reached 738.1 m2/g with a grinding time of 4 h. Silanized graphite nanoplatelets can disperse well in SG 15W-40 engine oil and serve as lubricant additive. Tribological results indicate that the friction coefficient and wear-scar of the friction pairs are lower than 76% and 41%, respectively, by adding 1.5‰ (mass fraction) of silanized graphite nanoplatelets. Notably, the functionalized graphite nanoplatelets can realize large-scale production and commercial application. Graphite nanoplatelets were prepared by a novel magnetic-grinding method using self-made equipments. Under a variant magnetic field, magnetic needles collided at a high rotating speed and exfoliated pristine graphite into graphite nanoplatelets with high efficiency. The obtained graphite nanoplatelets are highly crystalline, and the thickness is less than 10 nm. Moreover, the surface area could reached 738.1 m 2 /g with a grinding time of 4 h. Silanized graphite nanoplatelets can disperse well in SG 15W-40 engine oil and serve as lubricant additive. Tribological results indicate that the friction coefficient and wear-scar of the friction pairs are lower than 76% and 41%, respectively, by adding 1.5‰ (mass fraction) of silanized graphite nanoplatelets. Notably, the functionalized graphite nanoplatelets can realize large-scale production and commercial application.
Author	He, Zhi-wei Song, Sha-sha Zhao, Zeng-dian Ji, Hai-bin
Author_xml	– sequence: 1 givenname: Hai-bin surname: Ji fullname: Ji, Hai-bin organization: School of Chemical Engineering, Shandong University of Technology – sequence: 2 givenname: Zhi-wei surname: He fullname: He, Zhi-wei organization: School of Chemical Engineering, Shandong University of Technology – sequence: 3 givenname: Sha-sha surname: Song fullname: Song, Sha-sha organization: School of Chemical Engineering, Shandong University of Technology – sequence: 4 givenname: Zeng-dian surname: Zhao fullname: Zhao, Zeng-dian email: zhaozengdian@sdut.edu.cn organization: School of Chemical Engineering, Shandong University of Technology
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Snippet	Graphite nanoplatelets were prepared by a novel magnetic-grinding method using self-made equipments. Under a variant magnetic field, magnetic needles collided...
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SubjectTerms	Chemical and Environmental Engineering Coefficient of friction Engineering Graphite Grinding Lubricants Lubricity Materials Metallic Materials Metallurgy Platelets (materials) Tribology
Title	Scalable preparation of functionalized graphite nanoplatelets via magnetic grinding as lubricity-enhanced additive
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