Brand: INA
INA SCE 3216 Double Row Angular Contact Ball Bearing | High Precision, Industrial Load Capacity
The INA SCE 3216 double row angular contact ball bearing is engineered for applications requiring exceptional axial and radial rigidity combined with high-speed performance. Designed as part of the specialized SCE metric series, this component utilizes optimized internal geometry and high-grade bearing steel to ensure reliable operation under fluctuating loads. Its inherent design provides two-directional axial load carrying capability and a superior level of stiffness, making it ideal for precision shaft guidance where minimal deflection is critical. The robust construction and optimized raceway finish reduce operating temperature and friction, contributing to a longer service life and predictable maintenance schedules.
Specifically tailored for use in complex industrial machinery such as high-performance pumps, CNC spindles (mid-range), heavy-duty gearboxes, and materials handling equipment, the SCE 3216 delivers proven performance synonymous with the Schaeffler Group (INA/FAG). Choosing this genuine INA component ensures seamless integration and minimizes the total cost of ownership (TCO) by drastically reducing unplanned downtime. Its durability in challenging environments, coupled with precision manufacturing tolerances, makes the SCE 3216 the definitive choice for engineers prioritizing reliability and maximizing operational uptime.
Key Features
High Rigidity Design: Optimized internal geometry minimizes shaft deflection under combined axial and radial loads.
Two-Directional Axial Load Capacity: Capable of handling significant axial forces in both directions simultaneously.
Premium INA Quality: Manufactured by Schaeffler (INA) ensuring stringent precision tolerances (P6 or better).
Enhanced Service Life: Optimized raceway surfaces reduce friction and heat generation, maximizing operational longevity.
Versatile Application Use: Ideal for gear drives, pumps, compressors, and machine tool spindles requiring precise guidance.
