Ensure your Polaris Ranger’s clutch system performs at its best with this brand-new Yellow Zinc Plated Large .020″ Washer, designed specifically for shimming the primary or secondary clutch assemblies. Precision-engineered for durability and exact fit, this washer is a direct replacement for Polaris part number 5210752. Whether you are fine-tuning belt sheave clearance on the primary clutch or adjusting spacing behind the helix on the secondary, this washer provides the accuracy and reliability needed for smooth clutch engagement and consistent performance.
Manufactured with high-quality steel and coated in a corrosion-resistant yellow zinc finish, this washer delivers superior protection against rust, wear, and harsh riding environments. Its .020″ thickness allows precise adjustments, helping you maintain proper belt alignment and reduce premature belt wear. This small but critical component ensures your clutch components operate efficiently, extending the overall life of your drive system.
Compatible with a wide range of Polaris Ranger models, this washer can be used on both primary and secondary clutches depending on the specific year and model. It is ideal for riders who demand dependable performance, whether for work, recreation, or racing. Installation is straightforward—simply match it to your OEM clutch components using your Polaris parts diagram to confirm fitment.
Each washer is carefully machined to meet or exceed OEM specifications, ensuring a perfect fit and consistent performance every time. By maintaining the correct clutch spacing, you can achieve smoother acceleration, improved power transfer, and minimized vibration. This makes it an essential part of any clutch rebuild or maintenance routine for serious Polaris owners.
Upgrade your Polaris Ranger’s clutch system with this high-quality Yellow Zinc Plated .020″ Washer—an affordable, reliable solution for precise clutch tuning and long-term performance. Perfect for both professional mechanics and DIY enthusiasts who want to keep their machines running at peak efficiency.
