MOV´IT-CER™ Ceramic Braking Systems

Hard work, years of testing and intensive research got us one step closer to our dedicated goal: the perfect braking system. 

MOV´IT-CER™ Ceramic braking systems guarantee:

  • Highest braking force
  • Exact modulation ability
  • Superior fading resistance
  • Weight reduction of 45-50%
  • Direct response under wet conditions

MOV´IT-CER™ Ceramic brakes

MOV´IT-CER brake calipers

MOV´IT-CER™ brake calipers are specificly design to work in perfect combination with MOV´IT-CER™  brake pads and MOV´IT-CER™ friction rings.

Weight optimized, 3D-surface-cooling design, highest grade materials, staggered piston sizes, open brake pad area and a optimized brake pad retaining system ensure excellent results:

  • Extremly stiff brake calipers
  • Highest braking force
  • Even heat transfer
  • Even pad wear
  • Exact modulation ability
  • Optimized cooling

MOV´IT-CER™ brake calipers for ceramic brake

MOV´IT-CER™ Friction rings

Producing ceramic brake rotors is usually done in a cost-effective way. Friction layers of approx. 0,5 mm thickness are bond to a silicon carbid core which is reinforced by short carbon fibbers. This way to design a ceramic brake rotor entails some disadvantages, e.g. low thermal conductivity, little thermal capacity and poor material integrity. The result is a poor fading stability, high temperatures, excessive wear and high mechanical damage sensitivity.  

In years of intensive research MOV´IT® succeeded in developing the highly sophisticated production technique CCF™ (Crossed Continuous Fibre) that allows overcoming those disadvantages ceramic brakes show in comparison to brakes made of cast iron and – at the same time – combines the advantages of both materials. Polyacrylonitrile fiber sheets are needeled together and generate a perform. The future rotors are then cut out of this perform and experience various treatments. After the final treatment, a complex high rate silicon infiltration, the MOV´IT®-CER rotor is finished. The CCF™ system guarantees high thermal conductivity, superior thermal capacity and a homogeneous material structure combined with the low weight of the carbon-silicon-carbid material.

  • High thermal conductivity
  • Superior thermal capacity
  • Homogeneous material structure
  • Reduced system temperature
  • Highest fading resistance

MOV´IT-CER™ brake discs for ceramic brake

MOV´IT-CER™ brake pads

MOV´IT-CER™ brake pads are specificly designed for the MOV´IT-CER™ ceramic brake system:

  • Large pad area (>115cm²)
  • Even heat transfer
  • Lower temperature
  • Higher fading resistance
  • Higher lifetime

MOV´IT-CER™ brake pads for ceramic brakes

Contact Information





Connect with Us

Print Print | Sitemap
© 1.858.883.2655