Thermal Stability
Engineered for stability at 400°F+. How AeroShield maintains a critical lubrication film under extreme track loads.
In the high-stakes environment of performance driving, heat is the ultimate enemy. As engine RPMs climb and turbochargers spool, internal temperatures can spike well beyond the operating limits of conventional lubricants. Standard motor oils begin to shear and lose viscosity at these extremes, thinning out precisely when your engine needs protection the most. This breakdown leads to metal-on-metal contact, catastrophic wear, and eventually, engine failure.
AeroShield is engineered differently.
Designed for high-load driving, our formulation utilizes advanced synthetic polymers that resist thermal breakdown up to 400°F and beyond. Unlike traditional molecular structures that unravel under heat stress, AeroShield’s molecules form an interlocking protective matrix. This creates a non-Newtonian fluid barrier that actually strengthens under shear stress, maintaining a critical lubrication film between piston rings and cylinder walls even at redline.
The Science of Stability
Our proprietary Thermal-Lock™ Technology targets hot spots—specifically the turbocharger shaft bearings and the crankshaft journals. By dissipating heat more efficiently than standard oil, AeroShield actively contributes to engine cooling. It acts not just as a lubricant, but as a liquid heat sink, pulling thermal energy away from critical components and transferring it to the oil cooler.
Whether you are pushing for a lap record or simply demanding the most from your high-performance machine, reliable oil pressure is non-negotiable. AeroShield delivers consistent viscosity, ensuring that protection is instantaneous from cold start to the final checkered flag. It isn't just oil; it is a liquid component vital to your engine's survival.
"We don't just delay wear; we prevent it. At 8,000 RPM, you aren't just driving—you're testing physics. AeroShield helps you pass."
Summary of Benefits:
- Thermostability: Maintains grade and viscosity at temperatures exceeding 400°F.
- Shear Resistance: Polymers resist mechanical chopping, prolonging oil life.
- Active Cooling: Improved thermal transfer properties reduce peak engine temperatures.
- Track Proven: Validated in endurance racing conditions.
Ready to upgrade?
Experience the difference on your next track day.