Microstructure and properties of CrN coating via multi-arc ion plating on the valve seat material surface

The multi-arc ion plating technology is used to prepare CrN coating on the valve seat material surface. Results show that the surface grains gradually increase in size and becomes less uniform with the increase of the Cr target current. At different Cr target currents, the main phases of the CrN coating are Cr, CrN, and Cr2N. The critical load of the coating and matrix is 49.2 N. When the Cr target current is 65 A, the nano-hardness is maximum (18.84 GPa), and Young's modulus is 255.41 GPa. The CrN coating can reduce the friction coefficient of the valve seat material from 0.62 to 0.48, thereby improving the wear-resistance behavior. The main wear mechanism is abrasive wear. (C) 2021 Elsevier B.V. All rights reserved.

Automated summary

The study used multi-arc ion plating technology to prepare CrN coating on the valve seat material surface, and the results showed that adjusting the Cr target current could change the grain size and structure of the coating, thereby affecting its mechanical properties and friction performance.