Nanolubricants have attracted great interest due to the promise of friction and wear
reduction by introducing nanoparticles. To date, the foremost challenge for develo** a …

This work reviews the results on the temporal stability of nanodispersions containing
chemically modified nanoadditives: carbon-based nanomaterials, metals, metal oxides …

The improvement of the topological properties in contacts surfaces has been drawn the
attention of many commercial firms to reduce energy waste resulting from the influence of …

Traditional industrial lubricating emulsions usually contain a variety of constituents to fulfill
their functional requirements in long-term stability, lubrication, and anticorrosion. The …

Solvent-free ionic nanofluids (NFs) are promising smart lubrication materials due to their
remarkable stimuli responsiveness to an external electric field. In this study, four kinds of …

This research aims of compare the impact of the mass fraction of multi-walled carbon
nanotubes (MWCNTs) and titanium dioxide (TiO2) nano additive on the tribological and …

Improving the tribological properties of water by adding nanomaterials as water-based
lubricant additive has garnered increasing interest for the great potential in range of water …

Silica nanoparticles exhibited excellent tribological properties when used as lubricant
additives, but the bad dispersity in lubricant limited their application. Also, the influence of …

Surface-capped zinc oxide (ZnO) nanoparticles were engineered to deliver beneficial anti-
wear and anti-friction chemistries at sliding interfaces with a focus on potentially reducing …

Colloidal particles and ionic liquids (ILs) are emerging as potential additives for enhancing
lubricant performance. We examine a hybrid system containing colloidal suspensions of …