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Mercian
Mercian Evolution CKF75 DSH 25/26
Mercian Evolution CKF75 DSH 25/26
Regular price
£190.00
Regular price
Sale price
£190.00
Unit price
/
per
Low stock: 1 left
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Additional Information
Summary
Carbon Content | 75%+ |
---|---|
Bow | Mid/Standard Bow |
Material | Composite |
Age Range | Senior |
Season | 2025/26 |
Full Description
The Mercian Hockey Evolution CKF75 DSH has been designed with elite play in mind. The CKF75 is a high-carbon hockey stick with the DSH bend to enhance ball control and handling.
PRODUCT DETAILS
The Mercian Evolution CKF75 is a 75% carbon model with high-quality Toray carbon placed across a 15% fibreglass skeleton, providing excellent touch and feel. The 10% Kevlar increases durability, stiffness, and laminate bonding.
The DSH bend features a 4mm scooped face and low-bow profile (23mm @ 270mm) for enhanced ball control and 3D skills.
Nano polymer resin creates a flexible but stronger bond between composite layers, increasing stiffness and reducing the risk of de-lamination.
KEY FEATURES:
- High-Quality Carbon: Preferred carbon from Japan, Germany, Scotland, and South Africa provides stiffness but can be brittle. Combining carbon with fibreglass and Kevlar enhances strength and durability.
- Fibreglass Construction: Fine glass fibres combined into thicker fibres, dipped in resin, and laid out to create single directional sheets. These sheets are layered at different angles for multi-directional strength.
- High Friction Finish: The final layer of lacquer on the face of the stick is mixed with fine grains of silicon polymer to create a texture that stops the ball spinning on contact. These tiny rubber particles 'squash' on ball impact, providing a damping effect.
- Mid-Bow Bend: 23mm bend at 270mm from the head.
- Dual-Process Vibration Control: Piezo-electric fibres convert vibrations into heat for efficient dampening.
- Kevlar (Aramid) Durability: Enhances the strength and durability of the stick.
- Fibreglass Micro-Skeleton and Laminates: Forms a flexible base that absorbs energy, combined with carbon, Kevlar, and basalt for enhanced performance.
- Nano-Polymer Resin: Creates a flexible but stronger bond between composite layers, increasing stiffness and reducing the risk of de-lamination.
- Tungsten Carbide Diffused Kevlar: Enhances strength and durability by diffusing tungsten carbide through Kevlar.