CARBON FLEX CONTROL
Energy Management
Collaborative carbon strips operate in harmony, strategically positioned to disperse energy throughout the board's front and rear. This adaptability allows for precise control over the board's flexibility, optimizing its performance in surfing. Through the application of CFCs, the efficient redirection of energy towards the board's ends effectively reduces the risk of breakage while simultaneously enhancing overall performance. This translates to sustained, elevated board performance over an extended lifespan.
Resilience
The optimal utilization of carbon material occurs through compression and subsequent rebound, rather than through elongation and recovery. CFCs achieves equilibrium in the compression forces by evenly distributing carbon atop the deck and the underside. This results in a coil-based rebound mechanism that excels both in functionality and style.
Rail Liberation
When it comes to imparting rigidity to a surfboard, the contour known as the 'C' shape along the rails ranks closely behind the influence of the stringer. By liberating the rail from its innate rigidity, it opens up opportunities for other dimensions of performance to assume dominance. In the construction utilizing Carbon Fiber Composites (CFCs), a solitary carbon strip traces the apex of the rail, ensconced within layers of quad axle fiberglass set at a 45-degree angle, thereby granting elasticity. This design offers remarkable authority over the manipulation of flex and the precise distribution of strength, affording the ability to calibrate them according to preference.
