Thermal stability of CrNx nanometric coatings deposited on stainless steel

Abstract

Thin CrNx coatings are often used as protective coatings for steel. In these applications, coated parts might be subjected to high temperatures that can alter the coatings structural and mechanical properties. In this work, the properties of nanometric CrNx coatings deposited by reactive magnetron sputtering on AISI 304L stainless steel were studied by transmission electron microscopy, glazing incident X-ray diffraction, Atomic Force Microscopy, and nanoindentation. The effect of annealing, both in air and vacuum, on the coating crystal structure, surface morphology and hardness were also investigated. It was found that annealing in vacuum-induced phase transformation from CrN to Cr2N, while after annealing in air only Cr2O3 phase was present. Surface roughness did not increase for annealing in vacuum. CrNx coatings with higher Cr2N phase content showed lower roughness increase for annealing in air. Measured hardness was >10 GPa for as-deposited CrNx samples. An increase in hardness up to >20 GPa was found for vacuum-annealed samples.