ABSTRACT In many manufacturing and forming industries, springback effect in case of sheet metals is a major cause of concern. Thus, an effort has been made in present work for analysing the spring back effect with the help of split-ring test in deep drawn cups. The uniaxial tensile test has been performed and flow stress has been found to be decreased while ductility of material increased with rise in temperature. Subsequently, the deep drawing experiments have been conducted and overall thickness deviation was found to be increased with increase in temperature and decrease in blank holding pressure. The springback in deep drawn cups are measured in terms of average opening gaps in cut ring portion. Furthermore, Sellar’s-based constitutive model with different anisotropic yield criteria namely; Hill’48 and Barlat’89 have been developed for Inconel 625 alloy. The combination of Sellar’s model with Barlat’89 yield criterion is found to be more accurate for deformation behaviour prediction. Finally, these models have been implemented in finite element (FE) analysis of split-ring test using user defined material (UMAT) script. The mean relative error between numerically and experimentally computed results was found to be less than 8.11% which is well within the 10% of acceptance level.