Abstract:The effects of low-temperature retrogression in RRA on the microstructure, mechanical and conductivity properties of spray formed 7075 aluminum alloy with different pre-aging treatments were investigated by transmission electron microscopy, extension and conductivity tests. The results show that, pre-aging treatment (at 120 ℃ for 16 h) is more beneficial for the re-dissolution of precipitates in matrix than peak aging (T6, at 120 ℃ for 24 h) at low-temperature (160 ℃) retrogression, and the grain boundary precipitates are interrupted after RRA treatment. After pre-aging at 120 ℃ for 16 h and RRA treatment, the tensile strength, yield strength, elongation and conductivity of the alloy are 773 MPa, 724 MPa, 8.8% and 37.2%(IACS), respectively. The mechanical properties are higher than those after T6 or conventional RRA treatment (neither low-temperature or high-temperature) and the conductivity is close to the small sample after conventional high-temperature RRA treatment. This process is fitted for large workpiece in industrial heat treatment.

Key words: 7075 Al alloy; spray forming; re-aging; low-temperature retrogression; pre-aging; conductivity