SMMT CB2-24 Spherical Roller Bearing (120x215x76mm) C3 High Load Capacity
The SMMT CB2-24 Spherical Roller Bearing (SRB) is engineered for extreme reliability in demanding industrial applications characterized by high static and dynamic loads, misalignment, and vibration. Featuring dual rows of robust symmetrical rollers and a shared spherical raceway, the CB2-24 inherently compensates for shaft deflection and mounting errors up to 2 degrees of angle. This design significantly extends operational life and prevents premature failure in critical machinery. Manufactured from high-purity, through-hardened steel and utilizing a heavy-duty, machined brass cage (M designation), this bearing is optimized for superior performance under continuous, heavy shock loads, providing enhanced stability and reduced friction for maximum operational efficiency.
Designed as a premium replacement component for heavy industrial sectors such as mining, pulp and paper, cement, and continuous casting, the CB2-24 minimizes total cost of ownership (TCO) by dramatically reducing unplanned downtime. The standard C3 internal clearance facilitates optimal heat dissipation in higher temperature environments, while the precision-ground surfaces ensure quiet operation and peak performance efficiency. Choosing the SMMT CB2-24 guarantees longevity, reliable alignment compensation, and consistent performance, ensuring that critical machinery maintains high throughput even under the most punishing operational conditions.
Key Features
Self-Aligning Design: Automatically compensates for static and dynamic shaft misalignment up to 2 degrees.
High Load Capacity: Exceptional 730 kN dynamic rating for applications with severe radial and axial shock loads.
Robust Machined Brass Cage (M): Provides superior stability and wear resistance at high temperatures and high speeds compared to stamped steel cages.
Increased C3 Internal Clearance: Ensures optimal performance and longer operational life in thermal expansion environments.
High-Purity Steel Construction: Maximizes fatigue life and overall reliability in continuous operation environments.
