Nanoray Tour 9900 Badminton Racket is Made of new generation X-Fullerene carbon graphite has 4 radial ribs which unite carbon atoms to form a football-like structure. The X-Fullerene is used in the resin which bonds the carbon fibres and creates the cross-link construction. The tenfold increase in binding force makes it possible to create 5% higher repulsion power and 15% greater stability.
|Weight (Grams)||83 (+/- 2) - 4U|
|Balance Point||Head Lite Balanced|
|Grip Size||G4 (3.5 inches)|
||Graphite / NANO METRIC / X-FULLERENE|
|Shaft Material||Graphite / NANO METRIC|
||20 - 28lbs|
By reducing the amount of carbon in the shaft to make it 60%* thinner than a conventional racquet whilst retaining stiffness, YONEX has created a revolutionary lightweight racquet with lightening head speed and control.
*NANOMETRIC is the new material which applies the NANOALLOYTM Technology of Toray Industries, Inc.
*approximate measurement when compared to a conventional racquet shaft, tested by YONEX
The new generation X-Fullerene has 4 radial ribs which unite carbon atoms to form a football-like structure. The X-Fullerene is used in the resin which bonds the carbon fibers and creates the cross-link construction. The tenfold increase in binding force makes it possible to create 5% higher repulsion power and 15% greater stability.
Enlarged Sweet Spot
ISOMETRICTM technology continues to help the world’s greatest players achieve global success.
Developed over 30 years ago, the ISOMETRICTM design increases the sweet spot by 7%*. Compared to a conventional round frame, a square-shaped ISOMETRICTM racquet generates a larger sweet spot by optimizing the intersection of the main and cross strings.
ISOMETRICTM delivers greater control without sacrificing power. ISOMETRICTM is a Trademark of Yonex CO., LTD.
*Tested by Yonex
New Built-in T-Joint
The lightweight T-Joint increases stability of the shuttle on the strings, maximizing power and control.
New Grommet Pattern
The single-pass grommet hole construction provides more grommet holes for a more high-performance stringing pattern.