High Modulus Carbon Foil Mast 73cm 78cm 93cm
This carbon foil mast is made of high modulus carbon fiber and high density foam core, it has a strong stiffness and can bear massive impact when falling into the water. Manufactured by hot compression molding, no secondary foaming (The core material inside the hydrofoil may undergo secondary foaming, which can lead to cracking of the foil), high precision, and durable. Custom hydrofoil mast service is welcome. Please send us an inquiry to get details.
Carbon Foil Mast Specification
- Item: CM-737893
- Type: Carbon Hydrofoil Mast
- Material: Medium or High Modulus Carbon Fiber with Foam Core
- Length: 73cm, 78cm, 93cm
- Width: 13cm(Connected Fuselage Side)
- Manufacturing Process: Compression Molding
- Price: Contact us
- Sample: Welcome
- Available Customize Service: Logo, Pattern, OEM, and Composite Structure
Carbon Fiber Mast Details
This carbon foil mast is made of high modulus carbon fiber combined with a high-density foam core, delivering superior stiffness and strength. It is designed to withstand massive impacts during water sports, ensuring riders can trust its durability in extreme conditions.
Unlike aluminum masts with glued-on top plates, this mast features an integrated one-piece carbon fiber top plate, which makes it significantly more solid, stable, and reliable. This design minimizes flex and eliminates potential weak points, providing a seamless and secure connection with the foil board.
Manufactured by hot compression molding technology, the mast maintains high precision without secondary foaming inside the core (secondary foaming may cause cracking issues in traditional foils). This ensures long-lasting performance with excellent stability and responsiveness.
The mast is compatible with most standard foilboards, making it a versatile choice for both professional riders and water sports enthusiasts. We also provide custom hydrofoil mast services to meet specific requirements or custom carbon surfing products—send us your inquiry to explore tailored solutions.
FAQ
What is this carbon foil mast made of?
This hydrofoil mast is manufactured using medium or high modulus carbon fiber combined with a high-density foam core, creating a lightweight structure with exceptional stiffness, strength, and durability.
What makes this mast stronger than traditional hydrofoil masts?
This mast uses high modulus carbon fiber with a high-density foam core and is produced through hot compression molding technology, resulting in a highly rigid and durable structure.
The design is engineered to withstand substantial impact loads during demanding riding conditions.
What is the advantage of the integrated one-piece top plate?
Unlike aluminum masts with attached or bonded top plates, this carbon mast features a one-piece integrated carbon top plate.
Benefits include:
Increased structural strength
Reduced weak points
Improved connection stability
Lower flex under load
More reliable long-term performance
This creates a stronger and more secure connection between the foil and board.
Can the carbon hydrofoil mast be customized?
Yes. We support OEM and ODM customization including:
Logo customization
Surface patterns
Carbon fiber structure adjustments
Composite construction options
Project-specific requirements
Which carbon fiber modulus should I choose for a hydrofoil mast?
The ideal carbon fiber modulus depends on your application and performance requirements. Different modulus options provide different levels of stiffness, flex, and strength.
We offer multiple medium and high modulus carbon fiber solutions and have extensive experience with customized composite structures. Contact us for more details and professional recommendations.
Why choose us to produce Carbon Fiber Hydrofoil Mast?
High modulus carbon fiber construction
High-density foam core design
Integrated one-piece top plate
Hot compression molding technology
Excellent stiffness and impact resistance
No secondary foaming design
OEM & ODM customization support
Factory-direct supply
Designed for riders seeking lightweight performance, durability, and responsive hydrofoil control.

















