WS2 nanoparticles - potential replacement for ZDDP and friction modifier additives
WS2 nanoparticles - potential replacement for ZDDP and friction modifier additives
In high-pressure, high-temperature sliding contacts, WS2 nanoadditives react with the metal substrate to
generate 100+ nm chemical tribofilms with a layered structure and excellent tribological properties. The
friction, wear and micromechanical properties of WS2 tribofilms are compared with those of tribofilms
formed by the zinc dialkyldithiophosphate (ZDDP) antiwear additive and ZDDP-organic friction modifier
(OFM) mixture. Nanoindentation measurements showed that WS2 generates tribofilms with higher values
of hardness and Young's modulus than ZDDP and ZDDP + OFM, which explains its excellent antiwear
properties. The friction performance of WS2 surpassed that of ZDDP + OFM. The striking reduction of
boundary friction is credited to the layered structure of the WS2 tribofilm, with exfoliated/squashed WS2
nanoparticles that fill the gaps and cover the reacted tribofilm. In view of these results, WS2 proves to be
a suitable candidate for the replacement of problematic lubricant additives currently in use.
21238-21245
Ratoi, Monica
cfeffe10-31ca-4630-8399-232c4bc2beff
Niste, Vlad
dc4260f3-a934-47e5-b612-da50e0e985da
Zekonyte, Jurgita
c40df725-5ce3-4692-b638-bbb4d847b5ea
14 April 2014
Ratoi, Monica
cfeffe10-31ca-4630-8399-232c4bc2beff
Niste, Vlad
dc4260f3-a934-47e5-b612-da50e0e985da
Zekonyte, Jurgita
c40df725-5ce3-4692-b638-bbb4d847b5ea
Ratoi, Monica, Niste, Vlad and Zekonyte, Jurgita
(2014)
WS2 nanoparticles - potential replacement for ZDDP and friction modifier additives.
RSC Advances, 4 (41), .
(doi:10.1039/c4ra01795a).
Abstract
In high-pressure, high-temperature sliding contacts, WS2 nanoadditives react with the metal substrate to
generate 100+ nm chemical tribofilms with a layered structure and excellent tribological properties. The
friction, wear and micromechanical properties of WS2 tribofilms are compared with those of tribofilms
formed by the zinc dialkyldithiophosphate (ZDDP) antiwear additive and ZDDP-organic friction modifier
(OFM) mixture. Nanoindentation measurements showed that WS2 generates tribofilms with higher values
of hardness and Young's modulus than ZDDP and ZDDP + OFM, which explains its excellent antiwear
properties. The friction performance of WS2 surpassed that of ZDDP + OFM. The striking reduction of
boundary friction is credited to the layered structure of the WS2 tribofilm, with exfoliated/squashed WS2
nanoparticles that fill the gaps and cover the reacted tribofilm. In view of these results, WS2 proves to be
a suitable candidate for the replacement of problematic lubricant additives currently in use.
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Published date: 14 April 2014
Organisations:
nCATS Group
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Local EPrints ID: 364715
URI: http://eprints.soton.ac.uk/id/eprint/364715
ISSN: 2046-2069
PURE UUID: 3af7e52a-1b15-4c62-a186-b449270e3d96
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Date deposited: 08 May 2014 09:09
Last modified: 18 Mar 2024 03:14
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Author:
Vlad Niste
Author:
Jurgita Zekonyte
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