Introduction: The coefficient of restitution of balls and the vibration amplitude of racquets are largely depend on the stiffness of badminton racquet materials. Understanding of how racquet materials influence the hitting performance will be helpful in racquets selection and leads to exercise performance improvement. Methods: Three racquets which made by different materials were locked on a holder in front of a serving machine 1.5 meters (135 km/h) in randomized order. Each racquet was hit by badminton balls for multiple times. A high speed camera (300Hz) was set at the 2.5 meters away from the sagittal plane of the racquet. A tri-axes accelerometer was attached on the shaft of the racquet. The kinematic and vibration amplitude data were collected by the monitor and control software (LabVIEW 2008). 10 subjects were recruited and required to using these three racquets to perform a forehand clear test. After the test, subjects need to rating on a self-perceived racquet characteristic scale. Data analyses were conducted by IBM SPSS 23.0 statistical software. Descriptive statistic were used to indicate the tendency of the self-perceived racquet characteristic scores. Independent one-way ANOVA were used to compare the coefficient of restitution and vibration amplitude differences between three racquets. Post hoc were using LSD method. Significance level was set at α = .05. Results: The coefficient of restitution of Graphene was significantly higher than synthetic fiber and carbon fiber, as well as lower vibration amplitude. For the scores of self-perceived scale, the score of reflection speeds, control ability and stiffness in Graphene material were higher than synthetic and carbon fiber. Subjects also perceived lower vibration amplitude in Graphene. Conclusion: Regardless of the players' skills, Graphene material which has higher stiffness would be an ideal racquets option for higher reflection speeds, control ability and lower vibration amplitude.