CARBON METAL
TECHNOLOGY
Innovative Carbon Metal Solutions
Our proprietary Carbon Metal Material is an aerospace-grade Fiber Metal Laminate technology that integrates metal and carbon fiber to deliver enhanced strength, solid impact feedback, metal-like stability, and consistent performance.
Developed through more than a decade of R&D investment, this breakthrough material overcomes interlayer peeling between carbon fiber and metal, creating a stable and durable hybrid composite structure.
CARBON × METAL
Alternating layers of carbon fiber and ultra-thin metal layers — a proprietary hybrid construction that delivers unmatched energy transfer and vibration control in every swing.
Two Problems Conventional Laminates Can't Solve
Fusing carbon fiber with metal into one shaft meant overcoming two failures that defeat conventional fiber-metal laminates — making the fiber thin and uniform enough to stack, and stopping the layers from peeling apart under load.
Fiber Spread Technology
A raw carbon tow is too thick and uneven to stack into a precise, lightweight wall. Our answer: open each tow from its original 5 mm width up to 40 mm, spreading the bundle into an ultra-thin, uniform sheet of perfectly aligned filaments.
As the spread width increases, fiber areal weight (FAW) drops sharply — letting us stack more, thinner, evenly distributed plies for a lighter wall, more consistent strength, and finer control over flex and torque.
Prevent Interlayer Peeling
In ultra-thin metal layers, the volume change is extremely small. Consequently, the interlaminar shear stress induced by the volume change between the carbon fiber layers and the metal layers is also minimal.
This effectively mitigates interlaminar delamination at the interface between the carbon fiber layers and the metal layers, which occurs due to the contact of two different materials.
In contrast, thick metal materials fail to resolve the interlaminar delamination problem at the contact interface.