Abstract:The effect of solution heat treatment temperature on the mechanical properties and intergranular corrosion of the extruded sheets of 6082 aluminum alloy was investigated and the mechanism was discussed based on the microstructure examination by optical microscopy, scanning electron microscopy and scanning transmission electron microscopy. With the increase of temperature, the strength increases firstly to the maximum value at 520-540 ℃, then, decreases; while the elongation increases gradually; the maximum penetration depth of intergranular corrosion increases firstly, then, decreases. The increase of temperature tends to decrease the number of remnant phases and results in smaller β″ hardening precipitates with a higher density and consequently higher strength. However, too high temperatures result in coarse recrystallized grains, and thus, extrusion effect disappears and the strength decreases significantly. Solution heat treatment temperature has great effect on the recrystallization and size of subgrains, particles at grain boundaries and width of precipitates free zone adjacent to grain boundaries, therefore, changes the penetration path of IGC (Intergranular corrosion, IGC) and the maximum penetration depth.

Key words: 6082 aluminum alloy; solution heat treatment; mechanical property; intergranular corrosion; microstructure