Upgrade your Can-Am vehicle's performance with the precision-engineered Can-Am Upgraded Secondary Rollers with Pin & Wash by Trinity Racing. Designed for off-road enthusiasts who demand reliability and enhanced functionality, this kit offers a seamless integration into your existing setup. The DCP26 tool eliminates the need for a slide hammer, allowing for easy and damage-free pin removal, saving both time and effort during maintenance or upgrades.
Each component in this kit is crafted with durability in mind, featuring a zinc plating that not only provides a robust finish but also offers exceptional resistance against rust and corrosion. This ensures that your investment stays protected against the harsh elements encountered in off-road environments, prolonging the lifespan of the components and maintaining optimal performance.
The package includes three high-quality rollers, three precision-machined pins, and three washers, all designed to work harmoniously to deliver superior performance and reliability. The enhanced strength of these parts ensures that they can withstand the rigors of intense off-road conditions, providing you with peace of mind and confidence in your vehicle's capabilities.
Whether you're tackling rugged terrains or seeking smoother transitions between gears, these upgraded rollers are perfect for enhancing the efficiency and responsiveness of your Can-Am vehicle. By reducing friction and wear, they contribute to a more efficient power transfer, improving overall ride quality and performance.
Trinity Racing, a trusted name in the off-road community, ensures that each component meets the highest standards of quality and precision. Investing in this upgrade not only boosts your vehicle's performance but also enhances your off-road experience, allowing you to push boundaries without compromising on reliability.
Choose the Can-Am Upgraded Secondary Rollers with Pin & Wash by Trinity Racing to experience unmatched durability and performance. Elevate your off-road adventures with components designed to meet the demands of the most challenging environments.
