Abstract
An attempt has been made to enhance the oxidation/sulphidation resistance of Ti and Ti6Al4V alloy by the application of an HfN coating produced using Physical Vapour Deposition (PVD). The coated specimens were exposed to an atmosphere comprising high sulphur and low oxygen potentials ( pS 2 ∼ 10 −1 Pa and pO 2 ∼ 10 −18 Pa) at 750 °C for periods up to 240 h. The corrosion kinetics were obtained by a discontinuous gravimetric method. Linear and linear-parabolic kinetics were recorded for Ti and for Ti6Al4V alloy respectively. The HfN-coated Ti and Ti6Al4V specimens showed enhanced corrosion resistance. The scale formed on the uncoated Ti specimen consisted of a double layer of TiO 2 with an underlying TiS 2 film on the substrate. The exposed Ti6Al4V alloy also contained a double layer of TiO 2 but with Al 2O 3 precipitated in the external portion of the outer layer of the TiO 2, whilst a layer of Al 2S 3 and TiS 2 with vanadium sulphide developed beneath the inner layer of TiO 2. Application of the HfN coating suppressed the formation of the duplex oxide scales. However, extensive cracking developed either parallel or perpendicular to the sample surface, and severely compromised the protectiveness of the coating.
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