Oxidative Corrosion Mechanism of Ti2AlNb-Based Alloys during Alternate High Temperature-Salt Spray Exposure

Abstract: This study investigates the corrosion damage mechanisms of Ti2AlNb-based alloys under high temperature, salt spray and coupled high temperature-salt spray conditions. This alloy was analysed in detail from macroscopic to microscopic by means of microscale detection (XRD, SEM and EDS). The results indicated that Ti2AlNb-based alloy surface oxide layer is dense and complete, and the thickness is only 3 µm after oxidation at 650 °C for 400 h. Compared to the original sample, the production of the passivation film… Show more

“…Ti 2 AlNb alloys are composed of an order of the orthorhombic (O) phase (space group: Cmcm, Pearson symbol: oS16), B2 phase (space group: Pm3m, Pearson symbol: cP2), and α 2 phase (space group: P6 3 /mmc, Pearson symbol: hP8) [4,5]. As a hightemperature alloy, the oxidation resistance of Ti 2 AlNb alloy is not good above 750 • C [6][7][8]. This is because the competitive oxidation of Ti and Al occurs at high temperatures, failing to produce a dense oxide layer to protect the alloy matrix [9,10].…”

First-Principles Investigation on the Adsorption and Diffusion of Oxygen at the B2(110)–O(001) Interface in Ti2AlNb Alloys

“…Ti 2 AlNb alloys are composed of an order of the orthorhombic (O) phase (space group: Cmcm, Pearson symbol: oS16), B2 phase (space group: Pm3m, Pearson symbol: cP2), and α 2 phase (space group: P6 3 /mmc, Pearson symbol: hP8) [4,5]. As a hightemperature alloy, the oxidation resistance of Ti 2 AlNb alloy is not good above 750 • C [6][7][8]. This is because the competitive oxidation of Ti and Al occurs at high temperatures, failing to produce a dense oxide layer to protect the alloy matrix [9,10].…”

First-Principles Investigation on the Adsorption and Diffusion of Oxygen at the B2(110)–O(001) Interface in Ti2AlNb Alloys

Study on the electrical properties of Cu-based ECMs prepared by TiBN powder instead of W