As the developments of bridge technology are improved everyday, steel structures becomes one of the main options to build bridges. However, the pavements of steel bridge are under different considerations compared to road planes. Researches show that, after loaded the pavements occur deformations which are related to Viscoelastic Properties. This study applies finite element methods as the mechanics base and ABAQUS software to analyze the simulation of wheel loading on the pavements. Under different temperature conditions, Viscoelastic parameters are utilized to simulate the real mechanics reactions, and to observe the effects of wheel loadings on the elastic pavements according to these four damage parameters: the maximum deflection(U3), the maximum value of maximum principle tensile strain(MPE-T), the vertical compressive strain(E33-C), and Horizontal of stress (S11&S22). The results of wheel loading on the pavements of steel bridges are analyzed through coefficients such as viscosity and the relaxation of time. The results of simulation show that the damage parameters of viscoelastics of pavement increase as time passes, and become steady until it reached the maximum values. Because those floor beams and ribs support the pavements with vehicle loading, vehicle loading cause minor damages to the pavements. In the double thickness material design, placing the materials with higher module of resilience at the bottom can efficiently reduce the effect from the properties of viscoelastics to the pavements as time passed.