Carbon Ceramic Brake Carbon Ceramic Brake
Quick View
Carbon Ceramic Brake
$50.00

Product Features

1. Long-Fiber Reinforced Structure
Our discs use a long-fiber carbon reinforcement architecture rather than short-chopped fibers. This continuous, 3D-like fiber network improves crack resistance, impact strength, and thermal shock durability, especially under repeated hard braking and rapid heat cycles.

2. High and Stable Friction at Extreme Temperatures
The carbon-ceramic matrix maintains dimensional stability and friction characteristics at very high temperatures, where traditional metal discs begin to fade. The result is repeatable, confidence-inspiring braking on mountain descents, track days, and high-speed highway runs.

3. Lightweight Design for Chassis Dynamics
By significantly reducing unsprung and rotating mass compared with cast-iron discs, the suspension can react faster, steering becomes more precise, and ride quality improves. Drivers feel a more agile, controlled car in every direction change and braking maneuver.

4. Corrosion-Free, Clean Appearance
Carbon ceramic discs do not rust like iron discs. Even after long periods of parking, the disc surface remains clean, helping to reduce noise and vibration and preserving a premium appearance behind open-spoke wheels.

Carbon-Ceramic Brake DIsc

Born from aviation and motorsport, engineered for high-performance exotic cars. Our long-fiber carbon ceramic brake discs deliver lighter weight, stronger braking, and extreme thermal stability in one system.

  • HyperCarbon builds on this heritage by adapting long-fiber carbon ceramic architectures and advanced processing methods for performance road and track applications, balancing:

    • Cold-bite and everyday comfort

    • High-temperature stability for track use

    • Durability and NVH performance for real-world roads

  • Each set is tailored to your car. Tell us your brake setup, wheel specs and driving style, and we’ll engineer the disc size, hat and hardware so it fits cleanly and performs the way you need.

  • Modern carbon-ceramic brake technology is directly inspired by aircraft braking systems, where carbon-based discs are used because they are much lighter than steel and can handle temperatures up to around 1,000 °C while maintaining strength and dimensional stability.

    This technology then migrated into top-tier motorsport and finally into high-end road cars, as seen in the evolution of OEM carbon-ceramic systems from brands like Porsche and other premium manufacturers.

  • Our discs are based on a carbon-fiber reinforced ceramic matrix (carbon fiber and silicon carbide). The carbon fibers provide high specific strength and stiffness, while the ceramic matrix delivers hardness, thermal stability, and wear resistance.

Why CCB Matters For Your Ultimate Driving Experience

Superior Braking Performance and Fade Resistance

CCBs maintain a stable coefficient of friction at high temperatures, making them ideal for high-intensity driving and track use.

  • Higher and more stable

  • Excellent & Consistent performance at high temperatures

  • Can be reduced by approximately 3 meters (from 100 km/h) compared to cast iron discs

Significant Weight Reduction and Handling Improvement

The weight of CCBs is 50% to 70% lighter than equivalent cast iron discs. This reduction is in unsprung mass, which dramatically improves vehicle handling.

  • Approx. 50% - 70%

  • Improves suspension response, steering agility, and ride comfort

  • Enhances acceleration and deceleration efficiency; lowers fuel consumption

Exceptional Service Life and Aesthetics

Under normal street driving conditions, CCBs can last longer than the vehicle itself and produce virtually no brake dust.

  • CCB rotors often last from 150,000 to 200,000+ miles

  • Very little, keeping wheels cleaner

  • Does not rust, maintaining a like-new appearance

Customization & Fitment

For an accurate quote and fitment check, send us: