Abstract:The positive and negative alternating electrical impulse aging experiments were conducted to study the influence of positive and negative alternating electrical impulse on the microstructure and mechanical properties of 7075 aluminum alloy by TEM analysis, conductivity, Vickers hardness and mechanical properties measurement. The results show that the positive and negative alternating electrical impulse with frequencies of 10 and 700 Hz can accelerate the aging precipitation process and obviously increase the hardness of aluminum alloy. Compared with conventional aging heat treatment, the positive and negative alternating electrical impulse aging heat treatment can improve the strength of the specimen by 10.3% and the elongation of the specimen by 3.1%. Meanwhile, the observation of the microstructure of 7075 aluminum alloy by TEM indicates that positive and negative alternating electrical impulse aging heat treatment can multiply the number and improve the dispersion degree of precipitate η′ compared with conventional aging heat treatment; grain boundary precipitate transforms from small continuous distribution to coarsening discontinuous distribution. As a result, the positive and negative alternating electrical impulse aging heat treatment is better than conventional aging heat treatment on the aluminum alloy in improving the microstructure and properties.

Key words: 7075 aluminum alloy; positive and negative alternating electrical impulse; aging heat treatment; mechanical properties; microstructure