Description
Maximize the performance and longevity of your Audi RS3 or TT RS engine with the ACL RACE Series Main Bearings, designed specifically for the EA855 EVO 5-cylinder 2480cc turbocharged engines. These bearings feature an extra oil clearance option, providing enhanced lubrication and cooling under extreme conditions, making them perfect for high-performance and racing applications. The extra oil clearance reduces friction and wear, ensuring smoother operation and greater engine reliability even under the most demanding conditions.
The RACE Series Main Bearings are constructed from high-strength materials using ACL's proprietary manufacturing processes, delivering superior load-carrying capacity and heat resistance. This makes them ideal for engines that operate at high RPMs or in conditions where increased lubrication is necessary to protect engine components from excessive heat and wear.
Key Features:
- Extra Oil Clearance: Provides enhanced oil flow and cooling, reducing friction and wear for better engine protection in high-performance and racing conditions.
- Standard Size Fitment: Ensures precise fitment with the correct clearance, ideal for maintaining optimal oil film thickness and lubrication under high load conditions.
- High-Performance Construction: Built with premium materials for superior strength and durability, designed to withstand extreme temperatures and high RPMs.
- Optimized for Turbocharged Engines: Engineered specifically for the EA855 EVO 5-cylinder turbo engines, making them a perfect choice for Audi RS3 and TT RS models.
Vehicle Fitment:
- 2017-2020 Audi RS3 Base L5 2480cc
- 2018-2022 Audi TT RS Quattro Base L5 2480cc
- 2022 Audi TT RS Quattro Heritage Edition L5 2480cc
About ACL:
ACL is a renowned manufacturer of high-performance engine components, known for their commitment to quality and innovation. ACL's RACE Series bearings are trusted by automotive enthusiasts and professionals worldwide for their ability to deliver exceptional performance, reliability, and durability in high-stress environments.