SURFACE TRANSFORMS – THE HOME OF CARBON CERAMIC BRAKES
Surface Transforms is a highly innovative brake disc manufacturer based in Liverpool UK. With its own patented material technology and a team of scientists and qualified engineers, they are constantly developing new processes to produce carbon-ceramic materials of the highest quality and durability. ST is a manufacturer of latest-generation technology carbon-ceramic brake discs for vehicle and aircraft applications. ST is certified in TS16949 quality rating for automotive and AS9100C quality rating for aerospace.
Surface Transforms’ material is a new generation carbon-ceramic (CFRC -Carbon Fibre Reinforced Ceramic ) produced by Surface Transforms’ proprietary processes. In this process, Carbon-Carbon is converted into carbon-silicon carbide ceramic(CSiC -Carbon-Silicon Carbide).
While the carbon-ceramic discs found on production cars are produced with small pieces of carbon (chopped carbon fibre), ST uses a technique of superimposing many layers of carbon fibre and weaving them together to form a 3D multidirectional matrix in the material. Through this new generation technology, Surface Transforms guarantees a stronger and more durable product that is 3x more heat resistant than standard production carbon ceramic brake discs. As a result, performance is optimal and the brake system temperature remains lower during load. The surface of the discs is treated with an anti-oxidation treatment, which can be reapplied after wear from heavy and prolonged use. The brand now has a long list of applications available from different makes and models and continues to constantly develop to expand this.
Why choose Surface Transforms when going for a carbon-ceramic brake discs upgrade for your vehicle?
-Height savings of up to 70% compared to steel brakes (typically 20 kg unsprung weight)
-Improved roadholding and handling
-Reduced noise and vibration
-Better overall performance in wet and dry weather
-Less wear and therefore longer life
-Corrosion-free
-Excellent performance even at cold temperatures
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