To analyze the relevant mechanical properties of woodball mallet and ball by applying numerical methods. Methods: The collision speed between ball and mallet was from the experiment of motion analysis. The structures of woodball were constructed in Solidworks to form the solid models, and the numerical model was analyzed in ABAQUS to acquire the simulation results. Results: 10.0m/s impact speed of the ball which was measured from the normal swing stage, was applied to simulate the loading condition. While the speed of collision between ball and mallet head was 9.8 m/s, which was calculated from swing process of motion analysis. As the maximal stress (5.0MPa) of mallet was concentrated in the proximal part of bottle. Conclusion: The maximal stress was concentrated in the proximal of the bottle, which was in good accordance with the mallet fracture happened in real performing event. Some enforcement design could be carried out in this part to reduce the fracture incidence. Another important inding is the contact area at the mallet head was really small. The local pressure was very high (2.1MPa), which can easily lead to damage. So, manufacturer should choose high density wood to process ball in order to reduce the ball damage rate.