Carbonova Carbon-Ceramic Brake Pads
Carbonova Carbon-Ceramic Brake Pads
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Important Notes Before Purchase
1. Dedicated Compatibility
These brake pads are specifically engineered for Carbonova carbon-ceramic brake discs to ensure optimal braking performance and thermal stability.
They are not designed for compatibility with conventional steel rotors or third-party brake discs.
Please confirm that you are using Carbonova brake discs before placing your order.
2. Shipping Lead Time
This product is not stocked for immediate shipment.
Orders will be dispatched within 10 business days after payment confirmation.
This lead time allows us to perform final quality checks and ensure optimal performance before shipping.
Carbonova brake pads are specifically developed to operate with Carbonova carbon-ceramic brake rotors, forming a fully integrated braking system engineered for road cycling.
The pad compound is optimized to match the thermal characteristics and friction profile of carbon-ceramic discs, ensuring consistent braking response and predictable control during sustained high-speed riding.
These brake pads are not designed for conventional steel rotors.
Key Features
Carbon-Ceramic Optimized Compound
Specially formulated to work with Carbonova carbon-ceramic brake rotors.
Consistent Braking Response
Stable braking feel under repeated deceleration and sustained load.
Thermal Compatibility
Designed to match the heat characteristics of carbon-ceramic braking surfaces.
Road Performance Focused
Engineered specifically for high-performance road cycling applications.
Compatibility
Compatible with:
• Carbonova Carbon-Ceramic Road Rotors
Not compatible with:
• Steel brake rotors
• Standard aftermarket disc rotors
• MTB braking systems
Package Includes
1 × Pair of Carbonova Brake Pads
Important Notice
Carbonova brake pads are part of the Carbonova carbon-ceramic braking system and are designed exclusively for use with Carbonova rotors.
Using these pads with non-Carbonova rotors is not recommended and may result in improper braking performance.
