The Li-Ning Axforce 90 Dragon Max 4U Badminton Racket (AYPS069) is fitted with top-of-the-line Li-Ning technology, combined with a head-heavy balance and a slim medium flex shaft to make it an incredible, power-focused racket suitable for advanced players.
The Axforce range is crafted with innovative FRTP technology, providing an ultra-fast response time, resulting in the racket reverting to its original shape extremely quickly, boosting your performance on the court. It's also equipped with high-tech materials, facilitating significant shock reduction, and creating a smooth and even attack.
The Axforce 90 is a premium racket made for advanced players who love to unleash their attack strategy in full force.
Wing Stabiliser - Aviation technology that stabilises frame vibration to improve comfort, control, and racket recovery.
Stabilised Torsion Angle - STA improves the torsion resistance performance of the racket, stabilising the frame quickly even when hitting away from the sweet point. This helps to create high-quality strikes, making your attack more effective.
UHB Shaft - Combining cutting-edge scientific and technological achievements with the measured data of players, the ergonomic principle is used to continuously adjust the performance of the shaft to improve its bending point and smash performance.
TB-Nano - Designed for improved power transfer, nanometer technology binds carbon fiber and resin more tightly, allowing greater stability, elasticity, and durability.
Hot Melt - The resin is distributed more uniformly and closely combined with the carbon fiber by using the Hot Melt. It improves the strength and provides the same excellent user experience.
Cubic Locking - Cubic grommet locked within the slim groove is more stable and could provide extra protection for string, effectively absorb shock to get an accurate placement, and improve controlling performance.
HDF Shock Absorption System - High-tech light shock-absorption materials filled in racket frames, improving smash performance and avoiding injuries from movements. HDF shock-absorption materials are developed by using advanced technology, with strong capabilities of shock absorption to reduce the load on the wrist and arm.
