Loading response of restored teeth can be expressed by fracture resistance. Fracture resistance of restored teeth was found to correlate to bonding strength of restorative materials and the amount of remained tooth structure. However, the exact effect of the restorative materials on the loading response of restored teeth was still not discussed. Damping effect of a structure is associated with the degree of damage when the structure was sustained to a sudden impact. In our in vitro study, the damping ratios of teeth with and without restoration were detected and compared. Human maxillary premolars were chosen and prepared as Black’s Class I cavity (with geometry of 4x4x4 mm). The tested teeth were divided into three catalogues which restored with amalgam, glass ionomer, and composite resin, respectively. Modal testing was used to measure the damping ratios of the teeth before and after restorations. The mean damping ratio of the teeth before restorations is 0.120±0.020. The damping ratio of teeth restored with amalgam demonstrated a statistically lower value (0.081±0.022) than those of teeth restored with glass ionomer (0.106±0.024, p<0.05) and composite resin (0.111±0.020, p<0.05). These values were then input into a 3-D finite element model to calculate its viscoelastic response when subjected to a dynamic load. In the finite element analysis of this study, the change of maximum stress of models with and without damping properties was compared. The change ratio of the model with amalgam restoration (0.20%) was higher than those of teeth without restoration (0.11%), with glass ionomer restoration (0.12%) and with composite resin restoration (0.10%). The maximal equivalent stress of the point in buccal cusp near distal cervical area before and after restoration was compared. The values of teeth were 9.58 MPa (original), 8.15 MPa (amalgam restoration), 11.59 MPa (glass ionomer restoration), and 9.77 MPa (glass ionomer restoration). Our results demonstrated that different restorative materials have different damping properties. In addition, the damping properties really affect the loading response of the restored teeth. Accordingly, we suggest that the damping effects should be took into account when choosing restorative materials.