Tribological performance of oil‐based ZnO and diamond nanofluids

Abstract: In previous studies, few articles investigated the tribological properties of nanofluid‐lubricated ceramic specimens. Therefore, this research focused on the tribological performance of an alumina ball sliding against a steel plate lubricated with ZnO or diamond nanofluids using oleic acid as surfactant. The coefficient of friction obtained with various concentrations of ZnO and diamond nanoparticles was approximately constant at 0.08. Scanning electron microscopy (SEM) was used to explore the possible mechani… Show more

“…Finally, after the solution was sealed and stored for 72 h at room temperature, the copper nanoparticles were still evenly dispersed, and no solid precipitate was found at the bottom of the tube. Therefore, it can be considered that Cu nanoparticles modified by oleic acid have good oil solubility and dispersion stability 25,26 …”

“…Therefore, it can be considered that Cu nanoparticles modified by oleic acid have good oil solubility and dispersion stability. 25,26…”

Effect of copper nanoparticle concentration on tribological performances of cylinder liner piston ring

“…Finally, after the solution was sealed and stored for 72 h at room temperature, the copper nanoparticles were still evenly dispersed, and no solid precipitate was found at the bottom of the tube. Therefore, it can be considered that Cu nanoparticles modified by oleic acid have good oil solubility and dispersion stability 25,26 …”

“…Therefore, it can be considered that Cu nanoparticles modified by oleic acid have good oil solubility and dispersion stability. 25,26…”

Effect of copper nanoparticle concentration on tribological performances of cylinder liner piston ring

Investigation on Tribological Performance of Ferro‐Magnetic Fluid as Lubricant

Effect of C60-SiO2 hybrid nanoparticles on thermophysical and tribological properties of a multigrade engine oil: an experimental study