RLS 35 S CR Industrial Deep Groove Ball Bearing | 35x72x17mm | High Load Capacity
The RLS 35 S Deep Groove Ball Bearing is engineered for demanding industrial environments where reliability and extended service life are paramount. Manufactured using high-purity carbon chrome steel (100Cr6) and finished to P6 (ABEC 3) precision standards, this component ensures exceptionally low friction torque and superior rotational accuracy. The bearing features optimized raceway geometry and enhanced internal clearances, allowing it to manage a significant combination of radial and axial loads while maintaining thermal stability. With a robust dynamic load rating of 25.7 kN, the RLS 35 S is designed to minimize vibration and noise under continuous heavy operation, making it the benchmark for medium-duty machinery.
Selecting the CR brand RLS 35 S bearing guarantees crucial operational advantages, including reduced maintenance frequency and significantly extended machine uptime. It is the ideal solution for critical applications such as high-speed electric motors, industrial pumps, gearboxes, and materials handling equipment subjected to high duty cycles or fluctuating temperature profiles. The durable ‘S’ seal configuration provides effective retention of lubrication while protecting the internal elements from dust, moisture, and common industrial contaminants, ensuring maximum performance longevity even in polluted operating conditions. Invest in CR reliability to secure predictable performance and minimize total cost of ownership.
Key Features
High Dynamic Load Capacity (25.7 kN) for extended operational lifespan.
P6 (ABEC 3) precision rating ensures superior rotational accuracy and reduced vibration.
Optimized Internal Geometry for handling combined radial and axial loads simultaneously.
Standard Contact Seal (S) protects against industrial contaminants and retains high-performance lubricant.
Manufactured from premium 100Cr6 steel for maximum hardness and wear resistance.
C3 Internal Clearance suitable for applications involving thermal expansion or shock loading.
