Effects of quench aging treatment on microstructure and tensile properties of thixoformed ZA27 alloy

The effects of quench aging heat treatment on microstructure and tensile properties of thixoformed ZA27 alloy were investigated. The results indicated that the microstructure of the alloy became into polygonal β phase particles after solid solution treatment at 350°C for 48 h. The β particles then decomposed into α and η phases which would coarsen during the subsequent aging at 150°C. It was observed that the Zn concentration in the β phase near the polygonal boundaries was higher than that within the β particles. As a consequence, both the decomposition speed of the former β phase and the subsequent coarsening speed were faster than those of the latter β phase. Thus, α and η phases near the boundaries were always coarser than those within the particles during aging. Owing to the coarsening, the ultimate tensile strength continuously decreased with increasing aging time. The percentage elongation increased up to 10 h, but decreased with aging time owing to bad deformation accommodation and low bonding strength between particles. Cracks initiated from some defects (e.g. inclusions and porosities) during tensile test, and the path for the cracks to propagation changed with the aging time.