Facebook AME Motorsport AME MOTORSPORT Carbon Ceramic Performance Rotor (CCB) 324X24D51 Aston Martin AMR24 Page 25 F1technical.net TurboHoses R&D TurboHoses R&D added a new photo.. AME MOTORSPORT Carbon Ceramic Performance Rotor (CCB) SiC Coated The AME MOTORSPORT CCB rotor represents the pinnacle of carbon ceramic braking technology. Built on the same long fibre carbon ceramic composite foundation as our CCM series, the CCB adds a proprietary silicon carbide (SiC) ceramic friction coating delivering the ultimate combination of weight savings, thermal resilience, and long term durability for the most demanding driving conditions. What Sets the CCB Apart? The CCB's defining feature is its SiC ceramic friction layer (>0. 8 mm thick) with over 70% silicon carbide content. This coating provides three critical advantages over uncoated carbon ceramic rotors: 5 Greater Wear Resistance The SiC coating lasts approximately five times longer than uncoated carbon ceramic surfaces, significantly extending rotor life. Oxidation Protection to 1,400C The ceramic layer shields the internal carbon fibre structure from high temperature oxidation, preserving structural integrity under extreme heat. Uniform & Stable Friction Delivers consistent friction performance from 30C cold starts to 1,000C sustained track braking, with no variation in pedal feel. Full Carbon Ceramic Advantages Up to 60% Lighter Than Cast Iron Dramatically reduces unsprung weight for improved handling, acceleration, and suspension response. Zero Thermal Fade Tested through 2,000 consecutive braking events at 700C with stable friction coefficient and zero fade. Average of 0. 40 under high load conditions. Zero Wet Fade Full braking performance maintained in all weather conditions. Superior Mechanical Strength Long fibre reinforcement provides tensile strength of 80165 MPa and bending strength of 150230 MPa. Enhanced Heat Dissipation Thermal conductivity of 4080 W m K, with optimised internal vane geometry for approximately 6% faster cooling compared to competing carbon ceramic rotors. Corrosion Resistant Passed 240 hour neutral salt spray testing with zero rust, and dynamic salt spray corrosion testing at speeds up to 200 km h suitable for daily driving in all climates. 17 MPa Torsional Strength Zero permanent deformation under maximum test pressure, confirming exceptional structural integrity. Tested to OEM Standards Every AME MOTORSPORT CCB rotor is validated through a comprehensive testing programme aligned with leading European sports car manufacturer protocols, including: Rotary burst testing (achieved 6,200+ r min vs. 5,500 r min requirement) High load fade testing at 725C (80 cycles at 234 km h 100 km h, 0. 8g deceleration) 2,000 stop endurance fade testing at 700C Cooling rate benchmarking Torsional strength testing at 17 MPa 1. 5g 240 hour salt spray corrosion testing (GB T 10125 1997) Dynamic salt spray testing at 120200 km h Specifications Size: 324X24D51 (32424mm, PCD 51mm) Outer Diameter (): 324 mm Thickness: 24 mm PCD Bolt Circle: 51 mm Material: Long Fibre Carbon Ceramic Composite (C SiC) with SiC Friction Coating Type: SiC Coated (CCB) CCM vs CCB Which Is Right for You? Feature CCM (Uncoated) CCB (SiC Coated) Weight Savings Up to 60% vs cast iron Up to 60% vs cast iron Surface Protection Exposed carbon fibre SiC ceramic coating >0. 8 mm Wear Resistance Standard 5 greater than uncoated Max Surface Temperature Standard 1,400C rated Oxidation Protection Basic Full SiC shielding Best For Track focused builds, weight reduction priority Street + track, maximum durability & all weather use Ideal For Street and track mixed use applications High performance sports cars, supercars, and EVs Daily driven performance vehicles in all climates Vehicles with upgraded big brake kits (Brembo, AP Racing, Alcon, SET, etc.) Drivers seeking the longest possible rotor service life Fitment Note: Please confirm hat bell, offset, PCD, and caliper compatibility before purchase. Professional installation recommended. Contact our team for fitment assistance. Price is for a pair of rotors (2 pcs).