A comprehensive study of amino acids based ionic liquids as green lubricants for various contacts

In this paper, a group of quaternary ammonium amino acid ionic liquids (QAAA ILs) prepared by coupling the tetrabutylammonium cation with fourteen types of natural amino acids as base lubricant were investigated for steel/steel, steel/copper and steel/aluminum contacts at ambient temperature and elevated temperature. The corrosion resistance and tribological ability of various QAAA ILs was determined. The influences of various anionic structures on kinematic viscosity, corrosivity, thermal stability and tribological properties of the ILs were discussed in detailed. The copper strip corrosion test results showed that the present ILs have been proved to be almost non-corrosive. Tribological behaviors results displayed that the present ILs exhibit extremely eminent friction reduction and antiwear properties. Scanning electron microscopy (SEM) and X-ray photoelectron spectroscopy (XPS) analysis revealed that a protective lubricating film is formed on the surface of contact mainly through a polarity induced physical adsorption when QAAA ILs are selected as neat lubricants, which plays a key role in reducing friction and wear between the moving mechanical interface.

Automated summary

The study investigated the tribological ability and corrosion resistance of a group of quaternary ammonium amino acid ionic liquids on different metal contacts, showing excellent friction reduction and antiwear properties with almost no corrosive effects. Analysis revealed a protective lubricating film formed on the contact surface, contributing to reduced friction and wear between mechanical interfaces.