The precipitation phenomena in an Al-0.9 at.% Cu-1.4 at.% Mg alloy were stu
died by high resolution electron microscopy and calorimetry in order to cla
rify the transformation sequence. This paper shows for the first time that,
at around 200 degrees C, there is coexistence of four different phases: (i
) partially ordered nanometer-sized Mg-rich clusters of ellipsoidal shape,
(ii) ordered GPB zones of one monolayer thickness, (iii) monoclinic semi-co
herent S " phase, and (iv) orthorhombic semi-coherent S' which evolves into
the incoherent equilibrium S phase of Al2CuMg. At room temperature, Mg-ric
h clusters precipitate before Cu-rich GPB zones. Clusters are considered to
be precursors of the S' phase, whereas GPB zones may transform into S ". N
ew lattice parameters for S " and SI are proposed. (C) 2000 Acta Metallurgi
ca Inc. Published by Elsevier Science Ltd. All rights reserved.