Abstract:The low conductivity and poor antifriction performance
of lubricants
are the main causes of wear failure in mechanical equipment under
electronic-control friction. Metal–organic framework (MOF)
nanocomposites can be used to fabricate a new kind of lubricant additive.
Herein, porous Cu-BTC@Ag MOF nanocrystals were successfully synthesized
via an in situ generation method. Transmission electron microscopy
results showed that the nano-Ag element was evenly dispersed throughout
the Cu-BTC matrix. Cu-BTC@Ag nanocry… Show more
“…The synergistic effect of ZIF-67 and GO improves the overall lubrication performance of the lubricant. Further, Wang et al 66 used in situ synthesis to synthesize composites of Cu-BTC and Ag nanoparticles. The Cu-BTC@Ag is dispersed in ionic liquid lubricant and the friction experiment is carried out under the action of an electric field.…”
Section: Mofs As An Additive In Lubricantsmentioning
“…The synergistic effect of ZIF-67 and GO improves the overall lubrication performance of the lubricant. Further, Wang et al 66 used in situ synthesis to synthesize composites of Cu-BTC and Ag nanoparticles. The Cu-BTC@Ag is dispersed in ionic liquid lubricant and the friction experiment is carried out under the action of an electric field.…”
Section: Mofs As An Additive In Lubricantsmentioning
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