Masts
Carbon & Aluminum.
All Disciplines.
The Carbon Mast is constructed from a High Modulus (HM) Carbon blend, delivering superior strength and minimal weight.
HM Carbon Blend: Combines superior stiffness with lightweight properties.
The Aluminum Mast features a robust foil section with an optimized profile that offers impressive stiffness and minimal drag.
Comparable Performance: Matches the submerged drag of the Carbon Mast at higher speeds.
Universal.
Our Carbon Mast is constructed from a High Modulus (HM) Carbon blend, delivering superior strength and minimal weight. Its straight, zero-taper design ensures a consistent feel while reducing submerged drag, optimizing performance at high speeds. The ventilation-resistant foil section maintains efficiency even in turbulent conditions. At 15.5mm thickness, it strikes an ideal balance between rigidity, responsiveness, and speed, making it perfect for high-performance use, heavier riders, and high-aspect foils.
Our Aluminum Mast features a robust foil section with an optimized profile that offers impressive stiffness and minimal drag. Despite its 19mm thickness, the design performs like a thinner mast at higher speeds, maintaining comparable submerged drag to the Carbon Mast above 13 mph. It provides a durable and cost-effective alternative with solid, reliable performance.
Feeling.
Carbon: The ventilation-resistant foil section maintains efficiency at high speeds, steep angles, and in turbulent conditions.
Aluminum: Maintains laminar flow and performance at aggressive angles, through turbulence, and at higher speeds.
Sizes.
Carbon: At 15.5mm thickness, it strikes an ideal balance between rigidity, responsiveness, and speed, making it perfect for high-performance use, heavier riders, and high-aspect foils.
Available Sizes: 70, 77, 85 cm.
Aluminum: Despite its 19mm thickness, the design performs like a thinner mast at higher speeds, maintaining comparable submerged drag to the Carbon Mast above 13 mph.
Available Sizes: 65, 70, 77, 85 cm.
Speed.
Carbon: 15.5mm Thickness: Balances rigidity, responsiveness, and speed.
Aluminum: High Ventilation Resistance: Maintains laminar flow and performance at aggressive angles, through turbulence, and at higher speeds.
