Abstract
CrN coatings are widely used in the industry due to their excellent mechanical features and outstanding wear and corrosion resistance. Using scratch and ball-on-disk wear tests, the current study deals with the tribological characterisation of CrN coatings deposited onto an X42Cr13 plastic mould tool steel. Two surface conditions of the secondary-hardened substrate are compared—the plasma nitrided (duplex treated) and the un-nitrided (simply coated) states. The appropriate combination of secondary hardening providing the maximum toughness and the high-temperature nitriding of this high Cr steel is a great challenge due to the nitrogen-diffusion-inhibiting effect of Cr. The beneficial effect of the applied duplex treatment is proven by the 34% improvement of the adhesion strength and the 43% lower wear rate of the investigated duplex coatings. Detailed morphological analyses give insight into the characteristic damage mechanisms controlling the coating failure processes during scratching and wearing. For the simply CrN-coated sample, a new type of scratch damage mechanism, named “SAS-wings”, is identified, providing useful information in predicting the final failure of the coating. The tribological results obtained on tribosystems with the investigated high Cr steel/CrN constituents represent a novelty in the given field.
Subject
Materials Science (miscellaneous),Ceramics and Composites
Reference64 articles.
1. Adhesion behaviour of CrNx coatings on pre-treated metal substrates studied in situ by PBA and ESEM after annealing;Surf. Coat. Technol.,2005
2. Comparative studies on microstructure and mechanical properties of CrN, Cr–C–N and Cr–Mo–N coatings;J. Mater. Process. Technol.,2007
3. Erosion resistance and tribological properties of coatings deposited by reactive magnetron sputtering method onto the brass substrate;J. Mater. Process. Technol.,2004
4. Properties of TiN and CrN coatings deposited at low temperature using reactive arc-evaporation;Surf. Coat. Technol.,1995
5. Growth and characterization of Cr2N/CrN multilayer coatings;Surf. Coat. Technol.,2001