Nanocomposite microstructure and environment self-adapted tribological properties of highly hard graphite-like films
Nanocomposite microstructure and environment self-adapted tribological properties of highly hard graphite-like films
Graphite-like carbon (GLC) nanocomposite films were fabricated by DC magnetron sputtering using high pure graphite target at ambient temperature. Raman spectroscopy and X-ray photoelectron spectroscopy (XPS)investigation showed that the as-deposited GLC films have high concentration of sp2-hybridized carbon. High-resolution transmission electron microscopy (HRTEM) images and selected area diffraction patterns (SADP) indicated a complex nanocomposite microstructure of the GLC films. As well as nanocrystalline graphite, a face-center cubic (fcc) diamond with a grain size in the range of 3–8 nm were dispersed in the amorphous carbon matrix inhomogenously and integrally. The nanocomposite GLC film had high hardness of 23 GPa, which was attributed to the mutual strengthening effect of nanoparticles and amorphous matrix. More importantly, the as-deposited nanocomposite GLC film exhibited excellent self-adapted tribological properties in different environments of ambient air, different relative humidity and water. The friction coefficients were 0.053 in ambient air and 0.046 in distilled water, while specific wear rates were 4.5 x 10-16 m3 N-1 m-1 and 1.6 x 10-16 m3 N 1 m-1, respectively. The friction regimes and mechanisms in different environments were elaborated. This film is foreseen to high potential in protecting and solid lubricating material in humidity or water environment.
graphite-like carbon, nanocomposite microstructure, hardness, environment self-adapted tribological properties
301-310
Wang, Yongxin
a7186ae0-fae4-4bb3-80d9-20852ee7ff1d
Wang, Liping
ef5828b8-d874-42db-bb25-713890281af2
Wang, S.
8a390e2d-6552-4c7c-a88f-25bf9d6986a6
Zhang, Guangan
562918cf-f3df-4647-b855-392f10a1dce6
Wood, Robert
d9523d31-41a8-459a-8831-70e29ffe8a73
Xue, Qunji
7614cf46-0701-4942-bfcf-3d480aa3537a
December 2010
Wang, Yongxin
a7186ae0-fae4-4bb3-80d9-20852ee7ff1d
Wang, Liping
ef5828b8-d874-42db-bb25-713890281af2
Wang, S.
8a390e2d-6552-4c7c-a88f-25bf9d6986a6
Zhang, Guangan
562918cf-f3df-4647-b855-392f10a1dce6
Wood, Robert
d9523d31-41a8-459a-8831-70e29ffe8a73
Xue, Qunji
7614cf46-0701-4942-bfcf-3d480aa3537a
Wang, Yongxin, Wang, Liping, Wang, S., Zhang, Guangan, Wood, Robert and Xue, Qunji
(2010)
Nanocomposite microstructure and environment self-adapted tribological properties of highly hard graphite-like films.
Tribology Letters, 40 (3), .
(doi:10.1007/s11249-010-9663-8).
Abstract
Graphite-like carbon (GLC) nanocomposite films were fabricated by DC magnetron sputtering using high pure graphite target at ambient temperature. Raman spectroscopy and X-ray photoelectron spectroscopy (XPS)investigation showed that the as-deposited GLC films have high concentration of sp2-hybridized carbon. High-resolution transmission electron microscopy (HRTEM) images and selected area diffraction patterns (SADP) indicated a complex nanocomposite microstructure of the GLC films. As well as nanocrystalline graphite, a face-center cubic (fcc) diamond with a grain size in the range of 3–8 nm were dispersed in the amorphous carbon matrix inhomogenously and integrally. The nanocomposite GLC film had high hardness of 23 GPa, which was attributed to the mutual strengthening effect of nanoparticles and amorphous matrix. More importantly, the as-deposited nanocomposite GLC film exhibited excellent self-adapted tribological properties in different environments of ambient air, different relative humidity and water. The friction coefficients were 0.053 in ambient air and 0.046 in distilled water, while specific wear rates were 4.5 x 10-16 m3 N-1 m-1 and 1.6 x 10-16 m3 N 1 m-1, respectively. The friction regimes and mechanisms in different environments were elaborated. This film is foreseen to high potential in protecting and solid lubricating material in humidity or water environment.
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Published date: December 2010
Keywords:
graphite-like carbon, nanocomposite microstructure, hardness, environment self-adapted tribological properties
Organisations:
Engineering Mats & Surface Engineerg Gp
Identifiers
Local EPrints ID: 172897
URI: http://eprints.soton.ac.uk/id/eprint/172897
ISSN: 1023-8883
PURE UUID: 1bddbb5f-3d01-4166-be81-f392fd6a918f
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Date deposited: 01 Feb 2011 09:29
Last modified: 14 Mar 2024 02:37
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Contributors
Author:
Yongxin Wang
Author:
Liping Wang
Author:
Guangan Zhang
Author:
Qunji Xue
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