Abstract

In the paper, by using radio frequency (rf) magnetron sputtering method, a zirconium carbonitride coating was produced on AISI 316L austenitic stainless steel. The influence of substrate temperature (Ts) on microstructure, mechanical properties, corrosion resistance and hemocompatibility were then investigated. XRD and TEM results revealed that the zirconium carbonitride coatings were almost amorphous when Ts was below 400°C, while nanostructured Zr2CN was formed at Ts of 400°C. The nanocrystalline formation resulted in a significant increase in the nanohardness of zirconium carbonitride coatings from 17GPa to over 32GPa. Electrochemical testing showed that the stable zirconium carbonitride coating had improved the corrosion resistance of AISI 316L stainless steel substrate material. The characterization of platelet adhesion indicated that the zirconium carbonitride coatings presented better hemocompatibility when Ts varied from 25°C to more than 200°C, which may be due to the lower surface roughness, interfacial tension and the rate γsd/γsp, where γsd and γsp are the disperse component and polar component of the surface, respectively.

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