Carbon Hybrid
The Carbon Hybrid Tapes are custom made (purpose built) for surfboard production and have become the industry standard for strengthening the rails and tail area of surfboards, the area’s most affected by high impact and back foot pressure. The Carbon Hybrid Tapes uses a blend of 2mm thick carbon and a polyester E-Class. This construction ensures a high strength to flex ratio and doesn’t effect on the natural flex of the board. Moreover, the use of Uni-Directional weave pattern provides a high impact strength and allows for a kinetic flex pattern that will spring the tail back to its natural curve which creates extra drive and speed.
FEATURES
High impact resistance
Light Weight
Increases deck strength
Enhanced wet out ability with resin
Excellent U.V stability
Doesn’t embrittle under high speed impact
Ultra tough in tension, shear, and compression
High tensile modulus, tenacity, and dimensional stability
Reduces weight (at equal composite stiffness)
Amazing strength-to-weight ratio
Prevents paddlestrike dings and rail cancer
INDUSTRY USES
Tail Patches
Carbon Hybrid Tapes feature on the back rail of surfboards to prevent the tails from shattering and strengthening the deck from foot compressions.
Bottom of Surfboard
Carbon Hybrid Tapes are also used on the bottom of the surfboards to create additional spring or pop out of the board. Known as Kitetic Flex
Full Rail of Surfboard
Carbon Hybrid Tapes are often used along the full length of the surfboard rail with stringerless surfboards for added strength.
PU & EPS Compatible
Developed by Shapers Australia
Our Carbon Hybrid Tapes are compatible with both EPS Epoxy and PU Polyester Resin.The Carbon Hybrid Tapes are used during the lamination process. The tapes are placed on the foam before the cloth is laminated. Most manufactures mark the area they wish to place the Carbon Hybrid Tapes, and brush a small amount of resin on the foam . The Carbon Hybrid Tapes are then placed on the resin and then continue to lay the cloth over the board and laminate as normal.