Characterization of precipitates in an Al-Zn-Mg alloy processed by ECAP and subsequent annealing

Abstract

Experiments were conducted to examine the influence of equal-channel angular pressing (ECAP) and post-ECAP annealing on the microstructures of an Al-Zn-Mg alloy. The results show that precipitates, mainly of the η′, η (MgZn2), T (Al20Cu2Mn3) and E (Al18Mg3Cr2) phases, are fragmented to fine spherical precipitates during ECAP processing for 4 and 8 passes. After post-ECAP annealing at 393 and 473K for 20h, precipitates with larger sizes lie primarily along the grain boundaries and finer particles are evenly distributed within the grains. Increasing the numbers of ECAP passes from 4 to 8 leads to an increase in the volume fraction of the finer precipitates in the ECAP-processed and annealed alloy. After 4 passes and heat treatment at 473K, the precipitates are slightly larger compared with the alloy processed under identical conditions and annealed at 393K. Nevertheless, significant coarsening is evident after processing for 8 passes and increasing the annealing temperature from 393 to 473K. Different types of precipitates are effective in impeding grain growth during the post-ECAP annealing even at 473K for 20h. In addition, η precipitates form within the T and E phases after both ECAP and post-ECAP annealing.