Kinetics of Solid-State Reactions in Al-Li-Cu-Mg-Zr Alloys from Calorimetric Studies

Abstract

Differential scanning calorimetric (DSC) studies at different heating rates have been carried out to examine the solid-state reactions in 1441 and 8090 Al-Li-Cu-Mg-Zr alloys of water-quenched (WQ) and retrogressed tempers. The DSC peaks indicating the reactions sequence such as formation of GPB zones, precipitations of δ′ phase, dissolution of GPB zones and δ′ precipitates, and precipitations of S′, T 1, T 2, and δ phases have been identified. From the heat flow associated with the peaks of the thermograms, the fraction transformation (Y), the rate of transformation (dY/dt), the activation energy (Q*), the frequency factor (k 0), and the transformation function f(Y) for all the reactions of the 1441 and 8090 alloys have been determined. The appearance of separate peaks of GPB zone formation and δ′ precipitation in the 1441 alloy of retrogressed tempers has enabled determination of the kinetic parameters, which is otherwise not possible from the thermograms of the WQ state due to peak overlapping, by varying heating rate method. The kinetic parameters determined from the DSC data of all the reactions of the alloys are in good agreement with the previously published data.Similar content being viewed by others