Low friction coatings,  thin film coatings, racing coatings, high performance NASCAR, sprint cars, F1,nitro,alky,funny cars,comp,piston rings,lifters,nano technology,Mikronite,micronite

21TEK has merged with SURFACE SCIENCES in Phoenix , Arizona

Less Friction = More Horsepower and better Reliability

Reduce friction in race engines,coatings,F1,drag racing,youtube,

Our new shipping address:

24818 S. Sedona Dr.

Sun Lakes, AZ  85248

480-883-8448  tekman@21tek.com

What is NANOTRONITE?  It is our  proprietary formula using nanotechnology  similar to those that came out of  the  Space Program. It is also a proprietary metallurgical process. NANOTRONITE is extremely slick at 0.03 cof and gets slicker as you apply pressure.   NANOTRONITE bonds in a  thin layer .5 to 1 micron by chemically interacting with the  top layers of  molecules of the substrate. Twice as slick as Moly.                                                            .              No coating is slicker than our  Nanotronite.

Rocky was employed in the exotic materials Dept. of a major  steel company’s Research & Dev Lab. This Dept is the one responsible for the  structural skin on the Gemni and Apollo Space Missions and the mission to the  moon.  He was responsible for the heat treating lab, which included: vacuum  atmosphere furnaces, and sub-zero treatments, also the chemical milling and  preparation lab.  While at this lab, Rocky was instrumental in  inventing a new  metal.

He was the youngest person to work at Chrysler’s engineering  lab, where he operated the wind tunnel.

He has been a sales manager where he sold high tech  equipment to the military and NASA and managed up to six NASA  engineers.

Rocky has an associates degree in automotive technology and  formal metallurgy training.

He operated a Racing Engine Building service for ten years and  built engines from Stock Elim to Round Track and even a Top Alcohol Dragster.

Our Product NanoTronite is actually a proprietary metallurgical processes, not a coating.   Tronite creates a ceramic like surface on the treated part. It is hard and  super-slick on the outer atomic layer (lattice structure) of the part but  retains the properties of the original part beyond the top molecular layer. 

The  result: we create a very slick surface while retaining the base properties of  the original part.