Composition and structure-property relationships of chromium-diboride/ molybdenum-disulphide PVD nanocomposite hard coatings deposited by pulsed magnetron sputtering

The composition and structure-property relationships of physical vapour deposited coatings containing mixtures of CrB₂ and MoS₂ are reported. The coatings were produced by pulsed magnetron sputtering of loosely-packed powder targets formed from a blend of chromium and boron powders, alloyed with 12.8, 18.9 and 24.0 atom percent MoS₂. Results of coating characterisation (by X-ray diffraction, scanning electron microscopy, transmission electron microscopy, Auger electron spectroscopy and nanoindentation measurement of hardness and elastic modulus) revealed that increasing amounts of MoS₂ produced the following effects: frustration of crystallisation and phase separation; a decrease in average grain sizes (from ∼ 5.5 to ∼ 4.3 nm) and a decrease in coating hardness (from ∼ 15 to ∼ ∈10 GPa). Scratch testing also showed that the load-bearing capability of coatings was altered; coatings possessing an intermediate concentration of MoS₂ exhibited the best behaviour with no failure observed in mechanical testing, due to an optimal nanocomposite structure. The corrosion resistance (investigated by potentiodynamic polarisation tests) however tended to improve as more MoS₂ was introduced. An investigation of the effects of generating an amorphous structure by adding Ti and C into Cr-B-MoS₂ coatings revealed improved corrosion behaviour, which significantly exceeded that of uncoated stainless steel and CrB₂-coated samples.