A bridge is a man-made object created to cross over an expanse of water, a valley, or a road without blocking the way below it. The goal of the ongoing study is to examine the vibration properties of various material-based bridge structures. The ANSYS simulation programme is used to carry out the modal analysis of the bridge structure. Concrete, silicone rubber, and neoprene rubber were the materials examined in the investigation. For various bridge materials, the mode forms, natural frequency, and mass participation factor are assessed. For neoprene rubber material, the maximum deformation is observed at the bearing region, whereas the bridge structure and crash barrier have lower deformation. For silicone rubber material, the critical region is found to be at the crash barrier, which exhibited maximum deformation and was susceptible to amplitude build up during resonance.