Reshape the muscles and bones of the snowboard with the power of the tube.
CFTR COMPOSITE FIBER TUBE REINFORCEMENT TECHNOLOGY -- BUILD THE "ENERGY HIGHWAY" OF THE SNOWBOARD, SO THAT EVERY PRESSURE CAN GET THE MOST DIRECT RESPONSE
When the enhancement technology moves from two-dimensional layer to three-dimensional tubular structure, the energy transfer efficiency of the snowboard has ushered in a qualitative leap.
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The excellence of CFTR technology stems from its unique structural design concept and precise angle arrangement.
1. DIRECTIONAL ENERGY CONDUCTION SYSTEM
The high-strength carbon fiber/glass fiber composite pipe is embedded in the core layer of the Board body at a precise angle to form an efficient force conduction path. These microtubes act synergistically when the snowboard bends, optimizing energy storage and release efficiency.
2. MULTI-DIMENSIONAL STIFFNESS OPTIMIZATION
By adjusting the arrangement density and direction of the fiber tube, the longitudinal rigidity and torsional rigidity of the snowboard are independently regulated. The longitudinal direction ensures strong support and the transverse direction suppresses unnecessary torsional deformation.
3. BIONIC HOLLOW STRUCTURE
Inspired by natural hollow structures (such as bird bones), fiber tubes significantly reduce weight while ensuring strength. Its high stiffness-to-weight ratio far exceeds that of solid materials.
Experience Boost: How This Will Change Your Glide
● When you are pursuing extreme speed on a snow track:
CFTR technology provides strong longitudinal support to ensure high-speed stability, while the ejection feeling when exiting the corner allows you to continue to accelerate.
● When you need a quick reaction in complex terrain:
The light body and precise control allow you to easily cope with changes in terrain, reduce physical consumption, and glide longer.
● When you go for a smoother glide style:
The high efficiency of energy transfer makes each movement more natural and helps you form a more aesthetic glide rhythm.
Although the traditional plane reinforcement layer can improve the overall rigidity, it is difficult to optimize the force transmission path. CFTR technology is a breakthrough in implanting aerospace-grade composite fiber tubes into the core layer of the snowboard, and these microtubes are like the "skeletal system" of the snowboard, building an efficient energy conduction network. This not only greatly improves the longitudinal rigidity, but also achieves precise torsion control,Let the snowboard respond to the rider's movements more directly and clearly than ever before.