Effects of Film Thickness of ALD-Deposited Al 2 O 3 , ZrO 2 and HfO 2 Nano-Layers on the Corrosion Resistance of Ti(N,O)-Coated Stainless Steel.
Mihaela DinuKaiying WangEmile Salomon Massima MoueleAnca C ParauAlina Vladescu DragomirXinhua LiangViorel BraicLeslie Felicia PetrikMariana BraicPublished in: Materials (Basel, Switzerland) (2023)
The goal of this stydy was to explore the potential of the enhanced corrosion resistance of Ti(N,O) cathodic arc evaporation-coated 304L stainless steel using oxide nano-layers deposited by atomic layer deposition (ALD). In this study, we deposited Al 2 O 3 , ZrO 2 , and HfO 2 nanolayers of two different thicknesses by ALD onto Ti(N,O)-coated 304L stainless steel surfaces. XRD, EDS, SEM, surface profilometry, and voltammetry investigations of the anticorrosion properties of the coated samples are reported. The amorphous oxide nanolayers homogeneously deposited on the sample surfaces exhibited lower roughness after corrosion attack compared to the Ti(N,O)-coated stainless steel. The best corrosion resistance was obtained for the thickest oxide layers. All samples coated with thicker oxide nanolayers augmented the corrosion resistance of the Ti(N,O)-coated stainless steel in a saline, acidic, and oxidising environment (0.9% NaCl + 6% H 2 O 2 , pH = 4), which is of interest for building corrosion-resistant housings for advanced oxidation systems such as cavitation and plasma-related electrochemical dielectric barrier discharge for breaking down persistent organic pollutants in water.