Abstract:The effects of hot deformation parameters on the quenching sensitivity of Al-Zn-Mg-Cu aluminum alloy were studied by hot compression test, OM and TEM. The results show that, when Z-parameter increases, the hardness increases firstly and then decreases, while the degree of recrystallization and quenching sensitivity decrease firstly and then increase. The hardness of RT water quenching is the highest (188.8HV). The recrystallization fraction is the smallest (3.5%), when lnZ ranges from 28.44 to 28.62, at the same time, the decline of minimum hardness after air quenching reaches 2.5% comparing with that of RT water quenching. According to the Z parameter, it can be determined that the corresponding thermal deformation institution to the minimum zone of quenching sensitivity are temperature 387-434 ℃, deformation rate 0.23-1.23 s^-1 and temperature 443-450 ℃, deformation rate 0.61-1.77 s^-1. The auenching sensitivity is caused by micro particles as Al₃Zr, the coarse η phase precipitates on grain boundary and subgrain boundaries, leading to solubility of supersaturated solid solution decreasing. Different thermal deformation institution will result in different Al₃Zr phase boundaries, grain boundaries and sub-grain boundaries. The less the synergy effect is, the better the quenching sensitivity is. With the Z-parameter increases, the grain size of Al₃Zr particles and the mismatch of that with the matrix show the same tendency with the recrystallization degree, the lower the grain size and mismatch are, the smaller the area fraction of recrystallization is.

Key words: Al-Zn-Mg-Cu aluminum alloy; Z-parameter; quenching sensitivity; quenching precipitation