The FAG S3610 2RS NR is a high-performance single-row angular contact ball bearing designed for applications demanding both high radial and substantial axial load support. Featuring the critical 2RS designation, this bearing is equipped with contact seals on both sides, ensuring maximum protection against harsh contaminants, dust ingress, and moisture, thereby significantly extending service life and reducing planned maintenance schedules. The specialized 'NR' feature denotes a snap ring groove with an accompanying snap ring, simplifying the bearing's axial location in the housing bore and streamlining the installation process without requiring additional retention components. Built to FAG's stringent precision standards, the S3610 minimizes friction torque while maintaining exceptional running accuracy under dynamic operating conditions.
This robust bearing solution is ideally suited for demanding industrial sectors, including high-speed pumps, precision gearboxes, conveying equipment, and electric motors where reliability is paramount. Utilizing FAG's optimized internal geometry and high-quality steel construction, the S3610 2RS NR delivers consistent performance and superior load distribution. Choosing this sealed and integrated unit ensures optimal system protection from the moment of installation, guaranteeing compliance with modern equipment design requirements focused on efficiency and prolonged operational uptime. Partnering FAG quality with integrated sealing and mounting features provides an exceptional total cost of ownership (TCO) advantage.
Key Features
2RS Contact Seals for superior contaminant exclusion and moisture resistance.
Integrated NR Snap Ring facilitates easy axial mounting and retention in the housing.
High precision running accuracy optimized for demanding industrial machinery.
Capable of supporting high radial loads combined with significant unidirectional axial loads.
Reduced maintenance frequency due to factory-lubricated and sealed design.
FAG quality ensures long lifespan and reliable performance under continuous operation.
