How Does CerBond™ Work?

  • CerBond™ nano-molecules will bind with carbon chains within the metal sub-surface, once fully cured CerBond™ yields a glass smooth sealed surface, eliminating surface flaws within the metals mating surfaces.
  • The surface boundary layers formed by CerBond™ have a sub-micron molecular structure with characteristics that ensure extremely low levels of boundary friction between the surfaces.
  • CerBond™ is formulated with a "Surface Tension Modifier" that will reduce temperature, pressure, and friction between moving surfaces (boundary friction and wear). When the temperature is altered up or down and/or the pressure or friction is increased, CerBond™ activates a succession of chemical reactions with carbon acids and H2O to reduce surface tension.
  • This surface tension feature is a CerBond™ advantage over all other products sold today.
  • CerBond™ nano molecules are non-petroleum based ions with an extremely high affinity towards the metal surfaces.
  • CerBond™ molecules are < 0.001 - 0.003 mm in size and are therefore able to penetrate gum and varnish residual buildup on surfaces without the use of solvents.
  • CerBond™ molecules penetrates these surfaces. (metal's micro-pores)
  • Once bonded, the surface of a CerBond™ treated engine/equipment no longer has the cracks/pores for the gum/varnish particulate to latch onto.
  • Once CerBond™ reaches the metal surface, after penetrating the varnish build up, it forms a ceramic shield that protects the metal.
  • Once set CerBond™ releases the varnish and carbon build up back into the lubricant stream to be cleaned by the inline filtration system.
  • CerBond™ contains 99.9% synthetic nano ceramic compounds.
  • CerBond™ will bond and mechanically penetrate surfaces of metal.
  • CerBond™ molecules form ceramic boundary layer on and below metal surfaces to seal the rough pores and to smooth the metal surface.
  • CerBond™ provides protection from abrasion by forming a near diamond hard surface film on and below metal surfaces.
  • CerBond™ starts to activate at temperatures above -45° F. The higher the temperature, the faster the activation time, the more hours of constant operation the faster the final results will become apparent.
  • CerBond™ forms a permanent sub surface internal bond within metals.
  • The resulting compound is harder, not due to making the original friction area harder, but rather by filling in the pits, cracks, and uneven surface of the metal, making the surface as near perfectly smooth as is mechanically possible. This will not change dimensions of contacted parts.
  • CerBond™ will remove varnish and carbon build up on and between parts, leaving the internal metal surfaces clean and as near new condition as possible with your particular application.