Compressive tests on Al-21Ti-23Cr (L1(2)+Cr2Al), Al-21Ti-15Cr (L1(2)+Al17Cr9) and Al-30Ti-15Cr (L1(2)+TiAl+TiAlCr) alloys were performed to investigate the effects of alloy compositions on the phase stability of L1(2)-based alloys at temperatures below 1000 degreesC. In Al-30Ti-15Cr alloy, yield strength increased significantly after exposure at 800 degreesC as compared to the other two alloys. Microstructure observation and phase identification confirmed that the Al-30Ti-15Cr alloy with Ti-rich composition exhibited complete decomposition of the L1(2) phase in contrast to partial decomposition of the L1(2) phase in Al-21Ti-23Cr and Al-21Ti-15Cr alloys under the same conditions. This results from the fact that the L1(2) phase field is shifted in the direction of the Al-rich corner with decreasing temperature in the Al-Ti-Cr phase diagram. The fracture toughness of Al-30Ti-15Cr alloy from three-point bend tests was more degraded after exposure at 800 degreesC than the other two alloys because the Al-30Ti-15Cr alloy exhibited poor phase stability due to its higher Ti content. Therefore, L1(2)-based alloys with higher Al-rich composition are more appropriate as coating materials when considering phase stability coupled with fracture toughness. (C) 2003 Elsevier Ltd. All rights reserved.