Excellent tribological performance at elevated temperatures and associated mechanisms of novel AlCoCrFeNi-MoS2 solid self-lubricating composite

A high entropy alloy based self-lubricating composite with good mechanical and tribological properties was developed, using AlCoCrFeNi as matrix and MoS2 as lubricant. In addition to the well dispersed MoS2 particles, the novel composite reveals the presence of unique phases, including those rich in (Cr,Fe,Co), (Cr,Fe), (Al,Ni), Cr (a-phase), and (Cr,S)-enriched phases. It shows excellent anti-friction and anti-wear capacities from RT to 900 degrees C. Friction coefficients of the composite are less than all those previously reported AlCoCrFeNi and AlCoCrFeNibased composites under dry air wear conditions. This improvement can be correlated to the exceptional lubricating properties of MoS2, and the unique phases developed within the composite. Its excellent tribological performance is owing to MoS2 and fine wear debris at low and medium temperatures, while continuous and hard glaze layers at high temperatures. Main wear mechanisms change from abrasion and plastic deformation to oxidation and adhesion when temperature is increased, which is attributed to the formation of a thick glaze layer on the wear contact surfaces.

Automated summary

This study developed a high entropy alloy based self-lubricating composite with excellent mechanical and tribological properties. The composite showed outstanding anti-friction and anti-wear capacities under dry air wear conditions, and exhibited different wear mechanisms at different temperatures.