Effect of the Third Elements on High Temperature Oxidation Resistance of TiAl₃ Intermetallic Compounds

抄録

The brittleness of TiAl₃ is improved by the addition of third elements such as manganese, silver, chromium and so on. The effects of the third elements on oxidation resistance of TiAl₃ have been investigated in the point of view of the microstructure and products of oxidation layer. The oxidation test was carried out at 1000°C for 25 h or 30 d in air. For the copper-substituted alloy, Ti(Al, Cu)₃, the oxidation layer consisted of TiO₂, whose microstructure was porous. Thus Ti(Al, Cu)₃ showed very low oxidation resistance. While, for the manganese, silver, iron or chromium-substituted alloys, these oxidation layers consisted of only Al₂O₃. These alloys showed the oxidation resistance. It is not expected that the iron- or chromium-substituted alloys show the oxidation resistance of long duration, because oxygen atom was detected by EDS analysis in Al-depleted layer after the oxidation test for 30 d. In the oxidation test at 1000°C, the oxidation layer of the iron- or chromium-substituted alloys was constituted of α-Al₂O₃ and θ-Al₂O₃. On the other hand, that of the manganese- or silver-substituted alloys was constituted of only α-Al₂O₃ and their oxidation layer is dense. From these results, it was understood that the substitution elements would influence on the temperature of θ→α transformation. That is, Fe and Cr would solute to θ-Al₂O₃, and then θ→α transformation temperature would increase. While, Mn and Ag would scarcely solute to θ-Al₂O₃, and then θ→α transformation temperature would be almost the same as that of pure θ-Al₂O₃. In the oxidation test at 1000°C, the residence of θ-Al₂O₃ decides oxidation resistance of Ti(Al, X)₃ materials. The choice of the substitution element promoting the transformation from θ-Al₂O₃ to α-Al₂O₃ during heating process is important for improving in the oxidation resistance.