This thesis mainly studied the springback improvement methods of the aluminum alloy A6061, including using the drawbead in cold forming process and forming aluminum in warm temperature. These springback improvement methods are not the same diminishing springback mechanism. In terms of drawbead design, drawbead can achieve “post-stretch” effect and unify stress distribution on blank’s upper or lower surface. On the other hand, due to material strength reduced after heating the blank, the springback phenomenon improved. Before analyzation these two process, the material properties of the aluminum alloy A6061-O and A6061-T6 were studied first. The material properties include working-hardening ratio and plastic strain ratio etc…The influence of A6061 material properties in formability and springback had been analyzed, and the differience of formability and springback between aluminum and steel had been discussed. The material model of A6061 has been established, including non-isotropic yield function parameters (Hill48, Barlat91). On the other hand, Bauschinger effect of A6061 had been considered in this thesis, so the Yoshida- Uemori model of A6061-T6 was established. After established the material models, the springback analysis simulations including V-bending and U-hat drawing were conducted in this thesis. With simulations of different material models, the proper material model could be figured out by comparing with experiment data. About springback improvement methods, the drawbead design was studied to eliminate the springback of A6061-T6. The U-hat shape drawing die with drawbead design experiment was conducted to confirm influence of drawbead design on the springback phenomenon. The V-bending warm forming process of aluminum A6061-T6 was also conducted to discuss the springback improvement in three experimental temperatures. The results show that the springback degree decreases when the blank temperature increases, and the ratio of springback improvement increases when the fillet of punch increases.