Abstract: The effects of near-solvus high-temperature pre-precipitation on the microstructure, age hardening and stress corrosion cracking of 7A52 and quasi 7039 aluminum alloys were investigated. After analyzed by optical and transmission electron microscope, it is shown that the near-solvus pre-precipitation can be limited to grain boundary and can enhance the discontinuity of grain boundary precipitates in the sequent age. The stress corrosion cracking resistance can be improved with non-deteriorated strength and plasticity via the high-temperature pre-precipitation. The optimum combination of strength and stress corrosion cracking resistance in peak-aging temper can be obtained for 7A52 alloy after pre-precipitation treatment at 400 ℃. The stress corrosion cracking resistance at peak-aging temper can match the same effect with retrogression and re-aging Treatments by the high-temperature pre-precipitation.

Key words: Al-Zn-Mg aluminum alloy; near-solvus pre-precipitation; microstructure; mechanical property; stress corrosion cracking