Mechanical Properties of 7075-T6 Aluminum Alloy in Electrically-Assisted Forming

The coupling effects of electrical pulse, temperature, strain rate, and strain on the flow behavior and plasticity of 7075-T6 aluminum alloy were investigated and character-ized. The isothermal tensile test and electrically-assisted isothermal tensile test were performed at the same temperature, and the typical models were further embedded in ABAQUS for numerical simulation to illustrate the electroplastic effect. The results showed that electrical pulses reduced deformation resistance but greatly increased elongation. Compared with the traditional Johnson-Cook model, the proposed modi-fied Electrothermal coupling constitutive equations has a certain improvement in cal-ibration accuracy for highly nonlinear and thermoelectric coupling dynamic behavior. Moreover, Combined with the electrically assisted three-point bending experiment, it was found that the rebound angle decreases with the increase of current density. This is very close to the experimental result, further verifying the effectiveness of the ther-moelectric coupling constitutive equation.