TK 1 Plus Xtreme Late Bow

£324.95

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Article Name: TK 1 Plus
Article Number: 121101
Shape: Xtreme Late Bow
Technology: 24K Japanese Carbon, IDS, NPR
Composition: 95% 24K Carbon, 5% Aramid
Colour: Black-Gold

Ever wondered what happens when you combine the highest levels of materials, technology, and enviable looks? The TK 1 Plus is the answer.

24K Carbon gives you maximum power output and ultra-lightweight. The IDS system will take care of any vibrations, whilst the NPR spread throughout the construction of the stick further enhances the stiffness and that silky-smooth feel. All this combined with our most aggressive Xtreme Late Bow shape for maximum playability.

The only question to answer now is what’s stopping you?

24K Japanese Carbon

This is a 24K spread tow carbon fibre which offers exceptional strength and stiffness compared to biaxial carbon fibres. Triaxial fabrics are composed of three sets of parallel yarns corresponding to three directions: 0°, -60° and +60 °, resulting in a material that demonstrates quasi-isotropic properties.

The end result is a stick with a significant increase in torsional rigidity to offer maximum strength, power output and ultra-lightweight.

Integrated Dampening System (IDS)

Included in the handle within the structure of the stick is an enhanced piezoelectric fibre cell which converts vibration waves firstly to an electrical signal which is then dissipated as heat energy, all of which is undetectable to the player. By using IDS, we are able to produce sticks with extreme stiffness without the need to compromise on touch and feel.

Nano Polymer Reinforcement (NPR)

A self-assembling group of co-polymers are linked together and then spread throughout the structure of the stick to increase the laminate strength. In conventional constructions, glassfibre is needed to improve the feel and therefore add weight. By adding the NPR to the epoxy, we are able to significantly increase the impact strength and at the same time offer sticks with much greater feel despite their ultra-high stiffness.

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