G. Schmitz et al., HIGH-RESOLUTION ELECTRON-MICROSCOPY OF THE EARLY DECOMPOSITION STAGE OF AL-LI ALLOYS, Acta metallurgica et materialia, 42(1), 1994, pp. 201-211
The early decomposition stages of Al-7.8at.%Li, Al-10.4at.%Li and Al-1
1.8at.%Li alloys were studied by high resolution electron microscopy.
In all the above alloys, it was confirmed that in the as-quenched stag
e small ordered domains of L12 structure were present surrounded by th
e disordered matrix. From this microstructure, it was concluded that t
he alloy was already decomposed as in the as-quenched stage. No clear
evidence was found for congruent ordering which was proposed to occur
prior to spinodal decomposition. Examination of the sublattices of the
individual ordered domains also failed to give convincing evidence fo
r congruent ordering. The present observations suggest that the kineti
cs of spinodal decomposition of this system is too fast to be detected
by TEM. In order to slow down the decomposition kinetics, solution tr
eated samples were quenched to just above the solvus fine for delta' a
nd then to room temperature. By this heat treatment, a solution treate
d sample with much weaker order spots could be obtained. However, this
microstructure could not be interpreted as congruently ordered either
based on the weak L1(2) spots. As there is a limitation to the quench
ing speed, it is suggested that ordering and spinodal decomposition pr
ogress concomitantly during the observable range of time.