The Yonex NanoSpeed 9900 (2UG5) is a special ordered racket. It is a heavier racket and it has smaller grip size than the regular NanoSpeed 9900 (3UG4). Limited Quantities available.
The Yonex NanoSpeed 9900 the latest materials and technology, X-Fullerene and Elastic Ti to provide high elasticity, repulsion and strength in the same frame. This well balanced combination of high-rebound elasticity, like rubber, and 10x fold increase in binding force made it possible to create 5% higher repulsion and 15% greater stability. Moulded into both sides of the frame, the Elastic Ti frame overcomes the limitations of conventional frame material. With its powerful rebound effect, a split second after impact and deflection, the Elastic Ti Frame snaps back to its original shape to launch the shuttlecock down court with high accuracy and with the full energy of the swing.
YONEX Nanoscience achieves the quickest of racket work two ways. First, by providing sensitive control of how racket materials perform at the level of a thousand millionth of a particle unit, and second, by reducing the amount of racket material the shaft needs, for the ideal super-thin/ high-strength ratio
By controlling how badminton racquet material performs at the level of a thousand millionth of a particle unit, YONEX reduces the amount of racquet material the shaft needs for high strength. This makes the NanoSpeed line of badminton racquets shaft thinner and stronger to realize the long-time badminton player dream of a thinner and strong frame for quick racquet maneuverability.
Yonex NanoSpeed badminton racquets are Nano-powered by fullerene for more repulsion and speed from a compact swing. Traditional badminton racquet constructions increase the thickness of graphite or carbon fibre layers for high strength, which adds weight to the frame and makes a racquet difficult to maneuver. The YONEX nano-strucure uses nano-size particles of fullerene and carbon. The YONEX nano-particle engineering process gives YONEX sensitive control over how the badminton racquet materials function at the molecular level. The process establishes a high-performance molecular bond of the materials and creates a stable, thinner and stronger headlight badminton racquet that delivers maximum power and speed from a compact swing.
30% more impact resistant
10% more durability
5% more power
Factory testing demonstrates that by nano-powering the badminton frame—the part of the badminton racquet where stress concentration is highest—the YONEX NANOSPEED 7000 badminton racquet provides 30% more impact resistance than an ordinary badminton racquet, 10% more durability and 5% more repulsion power.