Nanotronite

Before we get to the properties of Nanotronite, first lets talk about heat and friction.

HEAT- While heat is necessary for producing energy in an internal combustion engine, it can and often does cause problems. Excessive heat can lead to thermal expansion of engine components, which can cause parts to warp, become misaligned, or even break. High temperatures can also cause engine oil to break down and lose its lubricating properties, leading to increased wear and tear on the engine's moving parts. Over time, this can lead to decreased power output, premature parts wear and even engine failure.

FRICTION- Friction occurs in an internal combustion engine when two surfaces come into contact and resist motion. Friction can cause energy loss and heat generation, which can lead to decreased engine efficiency and increased wear and tear on engine components.

Reducing friction in an internal combustion engine is essential for improving its performance and longevity. One of the most common ways to reduce friction is by improving the surface finish of engine parts. This can be achieved through various techniques such as polishing, and microfinishing, which help create a smoother surface that reduces friction between moving parts.

Another way to reduce friction is by using low-friction coatings. These coatings can be applied to engine parts to reduce friction and improve wear resistance, and that is where we can help. Thin film coatings have been used to reduce friction in internal combustion engines, which can help improve engine performance, reduce energy loss, and increase engine lifespan. Thin film coatings are applied to engine components to reduce surface roughness, create a smooth surface, and reduce friction between moving parts.

So, What is it?

Nanotronite is a type of nanomaterial that has been developed for use in various applications, including aerospace and race engines. Nanotronite is a ceramic material that has a unique crystalline structure and high surface area, which gives it unique mechanical, thermal, and electrical properties. The effects of using Nanotronite on an internal combustion engine or race engine can vary depending on the specific application and the type of Nanotronite used.

Benefits

Some of the benefits of using Nanotronite on an internal combustion engine or race engine include:

     Reduced friction and wear: Nanotronite has a high hardness and low coefficient of friction, which makes it an ideal material for reducing friction and wear between engine components. Using Nanotronite coatings can help reduce wear on engine components, leading to longer engine life and improved performance.

     Improved thermal stability: Nanotronite has excellent thermal stability and can withstand high temperatures without degrading or losing its properties. Using Nanotronite in high-temperature engine applications can help improve thermal stability and reduce thermal expansion of engine components.

     Increased durability: Nanotronite has a high mechanical strength and can withstand high loads without deforming or breaking. Using Nanotronite in engine components such as pistons, piston rings, and bearings can improve durability, sealing and significantly enhance the perfomance of these parts.

     Enhanced fuel efficiency: By reducing friction and wear between engine components, using Nanotronite can help improve engine efficiency and reduce fuel consumption. This can be especially beneficial in high-performance race engines where every bit of power and efficiency counts.

It's worth noting that the effects of using Nanotronite on an internal combustion engine or race engine may depend on many factors, such as the specific application, the type of parts it is being applied to, and the entire engine design. Additionally, the use of Nanotronite in engine applications is still a relatively new technology, so not many racers have heard of it, which gives you an advantage.

Properties-

-is extremely slick and gets slicker as you apply pressure

-is twice as slick as Moly

-is itself a lubricant that bonds in a thin layer .5 to 1 micron with the surface by chemically interacting on a molecular level with the substrate.

The Nano-coatings we apply are the product of years of development and research. We have refined our products and you will reap the rewards by choosing us to be your low friction coatings supplier. We DO NOT paint our coatings on, or “cure” them in a toaster oven.

Our processes and materials are cutting-edge and have been proven in the most extreme environments. We embed our proprietary materials into your part. This changes the materials surface structure and creates a permanent low friction surface on your part.

We use a proprietary technology called “Force Altered” under license from Force Altered Technologies, Inc. The same technology being provided to the aerospace and military industries.

We also use proprietary blends of Rare Earth materials to obtain our fantastic extreme pressure durable low friction coatings.