VEH18718 BEARING/BALL 2208 GB283-81
VEH18718 Self-Aligning Ball Bearing – Model 2208 (GB283-81)
The VEH18718 Ball Bearing (Model 2208) is a precision-engineered self-aligning double-row bearing designed to deliver exceptional performance in applications where shaft misalignment and dynamic loading conditions are present. Manufactured in accordance with the GB283-81 standard, this bearing ensures reliability, durability, and consistent operational efficiency across a wide range of industrial environments.
Featuring a spherical outer raceway and two rows of high-grade steel balls, the 2208 bearing automatically compensates for angular misalignment caused by shaft deflection or mounting errors. This design significantly reduces stress on the bearing assembly, extending service life and minimizing maintenance requirements.
Engineered for low friction and high-speed capability, the bearing supports heavy radial loads and moderate axial loads in both directions, making it a versatile choice for demanding mechanical systems. Its open configuration allows for customizable lubrication based on specific operational needs.
Key Features
- Self-aligning design for enhanced tolerance to misalignment
- Double-row construction for improved load distribution
- High precision and durability under continuous operation
- Optimized for low friction and high rotational speeds
- Suitable for both radial and axial load applications
Typical Applications
- Electric motors and generators
- Industrial gearboxes
- Pumps and compressors
- Agricultural and construction machinery
- Conveyor and material handling systems
Technical Specifications
- Model: 2208
- Type: Self-aligning ball bearing
- Standard: GB283-81
- Inner Diameter (d): 40 mm
- Outer Diameter (D): 80 mm
- Width (B): 23 mm
- Configuration: Open type, double row
Why Choose VEH18718 2208 Bearing?
The VEH18718 bearing is engineered for industries that demand precision, reliability, and longevity. Its robust construction and self-aligning capability make it an ideal solution for reducing downtime, improving performance, and ensuring smooth, uninterrupted operation in critical machinery.
