In this paper, the effect of strain rate has been considered in the simulation of forming
process with a simple form combined into the material law. Quite a few researchers have proposed
various hardening laws and strain rate functions to describe the material tensile curve. In this study,
the strain rate model Cowper-Symonds is used with anisotropic elasto-plastic material law in the
simulation process. The strain path evolution of certain elements, when the strain rate is considered
and not, is compared. Two sheet materials, Cold-reduced Carbon Steel (SPCC) JIS G3141 and
Aluminum alloy 6112 are used in this study. Two yield criteria, Hill 48 and Hill 90, are applied
respectively to improve the accuracy of simulation result. They show different performance when
strain rate effect is considered. Strain path of the elements in the fracture risk area of SPCC (JIS
G3141) varies much when the strain rate material law is used. There is only little difference of the
strain distribution of Al 6112 when the strain rate effect is included and excluded in the material
law. The simulation results of material SPCC under two conditions indicate that the strain rate
should be considered if the material is the rate-sensitive material, which provides more accurate
simulation results.