1. High Load Capacity: Due to the presence of the flange, the bearing can withstand significant axial, radial loads, and torque. This makes it widely applicable in high-load and high-speed mechanical equipment.
2. Compact Structure: The overall structure of the flanged bearing is simple, making installation and maintenance relatively easy. Moreover, due to the flange, it can be directly connected to other components, reducing extra installation steps and parts, thereby lowering installation costs.
3. Low Friction Coefficient: Flanged bearings that utilize rolling friction have a lower friction coefficient compared to sliding friction. This not only reduces power consumption but also minimizes wear and heat generation, thereby extending the bearing's service life.
4. High Speed: Due to the characteristics of rolling friction, flanged bearings can handle high speeds. This makes them widely used in mechanical equipment that requires high-speed rotation.
5. Wide Applicability: Flanged bearings are suitable for various industrial equipment, office machinery, micro motors, dental drills, hard drive motors, stepper motors, fans, pulleys, rollers, robots, medical devices, office equipment, testing instruments, reducers, variable speed devices, power tools, and toys, among others.
| imperial | metric | |||
| Minimum Size | Maximum Size | Minimum Size | Maximum Size | |
| Bore dia | 0.04688" | 0.375" | 1mm | 50mm |
| Outer dia | 0.15625" | 0.875" | 3mm | 72mm |
| Width | 0.0625" | 0.2812" | 1mm | 12mm |
| Flange outer dia | 0.203" | 0.965" | 3.8mm | 7.5mm |
| Flange thickness | 0.013" | 0.045" | 0.3mm | 2.5mm |
