论文信息 - Endurance and composition and microstructure effects on endurance of TiAl used in turbochargers

Endurance and composition and microstructure effects on endurance of TiAl used in turbochargers

Abstract Turbochargers for passenger vehicle diesel engines were manufactured using turbine wheels made from two different TiAl alloys (low-Nb and high-Nb), and were fitted to a 2.5 l diesel engine for engine endurance testing at 1123 K up to 600 h. Damage to the turbine wheels was subsequently investigated, and the endurance of the TiAl alloys in an actual operating environment was evaluated. In addition, the effects of chemical composition and microstructure on endurance were considered. Oxidation proceeded relatively slowly during endurance testing, and even the low-Nb alloy (which has poorer anti-oxidation properties) showed satisfactory endurance. However, the low-Nb alloy did exhibit erosion of the wheel blade tips, which was not found in the case of the high-Nb alloy. The likely cause of this erosion is collision with fine objects, and the fully lamellar structure marked by very fine colony size and narrow lamellar spacing which was formed in the wheel blades of the high-Nb alloy is thought to have resulted in the superior endurance that was observed.

Toshimitsu Tetsui | S. Ono | T. Tetsui | S. Ono

[1] W. Quadakkers,et al. The influence of cooling rate during alloy casting on the oxidation behaviour of TiAl-based intermetallics , 1993, Journal of Materials Science.

[2] W. Quadakkers,et al. The effect of microstructure on the oxidation behaviour of TiAl-based intermetallics , 1993 .

[3] D. Mckee,et al. The oxidation behavior of gamma-titanium aluminide alloys under thermal cycling conditions , 1992 .

[4] G. Chen,et al. Oxidation of Intermetallic Alloys in Ti-Al-Nb Ternary System , 1992 .

[5] M. F. Stroosnijder,et al. The high-temperature oxidation behaviour of Ti-47Al-2Cr-0.2Si and Ti-48Al-2Cr-2Nb compared with Ti-48Al-2Cr , 1997 .

[6] J. Fergus. Effect of niobium additions on CO2-enhanced oxidation of titanium-aluminum intermetallic alloys , 1997 .

[7] P. Schaaf,et al. Beneficial and detrimental Effects of Nitrogen on the oxidation behaviour of TiAl‐based intermetallics , 1997 .

[8] T. Shibata,et al. Influence of oxygen partial pressure on the oxidation behaviour of TiAl at 1300 K , 1997 .

[9] M. Yoshihara,et al. Effects of Nb addition on oxidation behavior of TiAl , 1995 .

[10] K. Chan,et al. Effects of lamellae spacing and colony size on the fracture resistance of a fully-lamellar TiAl alloy , 1995 .

[11] W. Quadakkers,et al. Studies concerning the effect of nitrogen on the oxidation behavior of TiAl-based intermetallics at 900°C , 1995 .