The purpose of this study was to investigate the dynamic and static bending properties of 2-by 6-inch and 2-by 8-inch China fir laminae using nondestructive techniques, including visual grade method, ultrasonic wave method, tap tone method and static bending test. In addition, the DMOEv which was dynamic MOE from ultrasonic wave method, DMOEf which was dynamic MOE from tap tone method and MOE which was from static bending test were calculated, respectively. The results indicated that the MOE values of 2-by 6-inch and 2-by 8-inch laminae have the tendency of Class1 ＞ Class2 ＞ Class3 according to CNS14630, the visual grading method. In addition, there was a significant difference between Class1 and Class 3. However, there was no significant difference among the MOE values of the four laminae grades by CNS 14631, the visual grading method. Most of the criteria used in the visual grading of the lumber were not closely correlated with specific properties, therefore, visual grading was not as precise as machine stress rated. The results also showed that the dynamic MOE of lumber was greater than that the static MOE of lumber, however, the values of DMOEf were very close to those of MOE. There were high correlations among the DMOEv, DMOEf and MOE, especially between the DMOEf and MOE (R^2 = 0.82-0.90). Hence, the tap tone method was a better approach to determine the static MOE of lumbers.