Bipolar plate is an important component of the fuel cell. Because there is no suitable fabrication process for mass-production of biopolar plate, the cost of portable fuel cell is still too high at present . In this study, the rubber pad forming process was used to fabricate the metallic bipolar plate and the process parameters of the rubber pad forming were analyzed. Polyurethane rubbers with different hardness were used for the rubber pads, and SS304 annealed stainless steel sheets with a thickness of 0.1 mm were tested in the experiment. According to the result of experiment, both the hardness and the thickness of pad are of no influential significance. Finite element analysis (FE, Abaqus / Standard software) was used to analyze the rubber pad forming process numerically. And optimization focused on aspect-ratio and filling percentage by changing the various dimension of flow channel and loading were conducted. Sensitivity analysis was also performed to investigate the effects of the process parameters.