KINESIS ULTRA S-LITE
Advanced racket. Unique frame design with Vortex Geometry at 4 axis points on the frame to deliver maximum racket head speed. Highest quality Japanese Hotmelt graphite provides maximum racket stability and playability.
Spec for professional defensive doubles player, juniors and women players
Carlton Kinesis Ultra S- LITE Racket technologies
|Maximum Racket Tension||30 Upto Lbs(pounds)|
|Frame Material||Japanese H.M Graphite|
|Grip Size||3 ⅛|
Technologies used in the Racket:
Vortex Geometry is a unique vortex shedding frame geometry providing a twisted aerodynamic profile in the hoop reflexively tracing the biomechanics of your stroke increasing racket head speed and manoeuvrability.
Japanese Hot Melt Graphite
Japanese Hi Modulus Graphite is the highest specification carbon available on the market treated with High pressurized heat for better graphite fusion ensuring your Carlton frame will outperform all other construction materials for frame response and stability.
Super elastic Vectran fibres are five times stronger than steel. Braided Vectran and Carbon fibres in the shaft increases elastic responsiveness, dramatically increasing power return for greater penetrative shot making.
Unique resin system increases overall stiffness for enhanced shot precision. Extreme racket recoil velocity gives excellent manoeuvrability for ultimate speed and control.
High Repulsion Shaft
High Repulsion Shaft is engineered with the highest precision in shaft manufacturing ensuring 360 degrees balanced graphite layups. Higher power and increased precision is achieved by blending the optimum flexibility and kick point of your Carlton racket shaft every time you swing it.
XTREME Tension Frame
Precision engineering and the utilisation of the finest construction materials ensures your Carlton frame can accommodate 11% higher string tensions compared with competitor frames.
Ultra -Thin Tapered Shaft
Innovative carbon layup and resin system enables the creation of the thinnest shaft available. The constant taper shaft provides optimum energy return with less drag for superior speed and power.
Concave channels increase shaft stability and flex response, whilst an enlarged gripping area improves comfort, dexterity, and manoeuvrability.