The drive toward energy conservation and impact resistance has increased the importance of high-strength steel sheet components in the automotive industry. However, during metal stamp forming, springback associated with high-strength steel is far more pronounced than that observed in common mild steel. As a result, the numerical simulations and obtaining accurate predictions related to stamp forming results can be extremely difficult. The Yoshida-Uemori (Y-U) material model is currently an important model in the simulation of stamp forming high-strength steel with the ability to comprehensively describe the Bauschinger effect and strain hardening behavior of metal during severe plastic deformation. This study utilized cyclic shear tests to investigate the development of a Y-U material model for DP980 high-strength steel. LS-DYNA numerical simulations were used to verify the accuracy prior to conducting NUMISHEET’93 stamp forming experiments and DYNAFORM simulations. Our results demonstrate that Y-U model parameters derived in this study can be used to provide accurate simulations of the springback associated with stamp forming high-strength steel.