This paper presents the results of a study on the characteristics of the passive oxide film that forms on the surface of an α+β Ti–5%Ta–1.8%Nb alloy, which possesses good corrosion resistance in severe oxidizing environment of boiling 11.5M nitric acid. Through systematic structure–property studies, the microstructure with low corrosion rate (<1mpy) in liquid, vapor and condensate phases of nitric acid was identified. The characteristics of the passive film, which imparts corrosion resistance to the alloy, are influenced by its microstructure, temperature and concentration of the acid. The microstructure, thickness and composition of the oxide film were characterized using different techniques. TiO 2 , Nb 2 O 5 and Ta 2 O 5 formed on exposure to vapor and condensate phases, while TiO 2 was observed on exposure to the liquid phase. Detailed microstructural studies showed that the passive film consists of nano-crystalline phases of titanium and tantalum oxides, predominantly anatase in an amorphous matrix. Based on these studies, the mechanism of corrosion of the alloy is derived.