Author:
Towler H.,Mitchell S. R.,King M. A.
Abstract
AbstractHow the racket properties impact performance of the badminton smash is relatively unknown, and further insight could help players/coaches select the most appropriate racket. Three-dimensional position data of the racket and shuttlecock were collected (500 Hz) for 20 experienced badminton players performing a series of forehand smashes with five swingweight ($${I}_{s}$$
I
s
) perturbed rackets, ranging from 85–106 kg·cm2. $${I}_{s}$$
I
s
was calculated using a balance board and simple pendulum method, and modal analysis was performed using laser vibrometry to capture the fundamental frequency and distal node location for each racket. As $${I}_{s}$$
I
s
increased a reduction in racket head speed was found with on average a 0.7 m·s−1 decrease per 5 kg·cm2 increase in $${I}_{s}$$
I
s
, however this did not lead to slower shuttlecock speeds. The impact location tended to move closer to the tip as the fundamental frequency node moved closer to the tip (as $${I}_{s}$$
I
s
increased), providing some evidence that participants may subconsciously strike the shuttlecock at the node location to provide desirable sensory feedback. The increase in racket head speed but not shuttlecock speed was likely due to the distal increase in longitudinal impact location as $${I}_{s}$$
I
s
increased, as well as an increase in effective mass for a given impact location. Additionally, removal of the deformation component (additional racket head speed due to the racket noticeably bending and recovering) of racket head speed increased the effect size of the relationship with $${I}_{s}$$
I
s
, where rackets with greater $${I}_{s}$$
I
s
had larger deformation velocities. The research provides further insight into the smash performance characteristics of experienced badminton players, particularly based on racket properties. Further research is required to confirm the coincidence between node location and longitudinal impact location.
Publisher
Springer Science and Business Media LLC