Microstructures, Composition and Tribological Behavior of TiCrN/MoS2-TiCr Coatings Deposited by Magnetron Sputtering

To enhance the tribological performance of the conventional TiCrN coating, the MoS2-TiCr coatings are deposited onto the TiCrN layer by magnetron sputtering. In general, the MoS2 is implemented to enhance the friction reduction performance of the TiCrN coating, while the Ti and Cr are doped to increase the density of the structure and prevent MoS2 from oxidizing. The results reveal that with an increase in the content of Ti and Cr in the MoS2-TiCr top layer, the hardness and the coating-substrate adhesion force of the composite coating increase, respectively, due to the compact top layer. Further, the optimized Ti and Cr doping in the MoS2 top layer greatly enhances the tribological properties of the TiCrN/MoS2-TiCr composite coating with a friction coefficient as low as 0.06 and the wear rate is only 6% of the TiCrN coating. The main reason for the excellent tribological properties of the TiCrN/MoS2-TiCr composite coating is probably due to the recrystallization of the MoS2 in the process of wear.

Automated summary

MoS2-TiCr coatings are deposited onto the TiCrN layer by magnetron sputtering to enhance the tribological performance. Ti and Cr doping is used to increase the density and prevent MoS2 oxidation. The optimized Ti and Cr doping greatly improves the tribological properties.