Product Description
FR99 Friction Reduction Formula
Extreme performance far beyond ANY lubricants in existence, while the safest in existence
FR-99 is concentrated material which is added to motor oil, hydraulic oil, grease, or other lubricating media for super performance even in the most demanding applications:
- Extreme Pressure
- High Temperature (continuous 600 F) “higher when engineered by application”
- High Speed
- Vibration
- Impact
- All the above or any combination
How it works:
Most of the frictional wear on metal surfaces is actually the result of weakened metal from corrosion. Corrosion on metal is catalyzed by environmental elements in air and moisture present within lubricated systems, particularly with Poly Alkaline Hydrocarbons (PAH) and with chlorinated ions. For decades, additives of mostly chlorinated ions gave lubricants the ability to perform better in different applications. Nu-Science Lube FR99 blocks the environmental chemistries from having contact with treated metal surfaces. When there is no oxygen or other catalyst, there is no corrosive reaction. This is also true of Fluid Film Strength technology, except that Fluid Film Strength falls far short of full effectiveness. The performance of FR99 is sustained far beyond that of any Fluid Film Strength technology, and beyond that of materials defined as “surface modifiers” or “nano-technologies”. When friction occurs and one surface contains ferrous metal (carbon steels, stainless steels, cast iron, high alloys), non-corrosive reactions occur with FR99 on those friction points, and they become hardened to extreme levels and extremely slick so that the coefficient of friction drops to .001, which is sustained, and then tends to reduce even further. The friction points experience phase transformation past martensite, and Alpha Iron is formed with imbedded continuous lubricity. With the resulting absence of friction, heat or corrosion, metal wear is reduced to nearly nothing compared to other means of lubrication. The increases in wear life exceed 1000% in many applications and nearly never less than 300%.
