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CESI 16044
Part Number | CESI 16044 |
System of Measurement | Metric |
Bearing Type | Ball |
For Load Direction | Radial |
Seal Type | Open |
Bore Dia | 220 mm |
Outer Dia | 340 mm |
Width | 37 mm |
Ring Material | Silicon Nitride |
Balls Material | Si3n4 |
Cage Material | PEEK |
Dynamic Radial Load | 9788 lbf |
Static Radial Load | 11475 lbf |
Max Speed (X1000 rpm) | 1.92 |
Lubrication | Without |
Temperature Range | -176 to 1472 °F |
Shoulder Diameter | 297.65 mm |
Chamfer Dimension | 2.1 mm |
Diameter Of Shaft Abutment | 230 mm |
Diameter Of Housing Abutment | 330 mm |
Radius Of Shaft Or Housing Fillet | 2 mm |
Fatigue Load Limit | 5.2 kN |
Reference Speed | 4000 r/min |
Minimum Load Factor | 0.02 |
Calculation Factor | 16.5 |
Weight | 4600.00 g |
Design Features of CESI 16044 Bearing
CESI 16044 Bearing is a precision bearing designed with balls made from silicon nitride (Si3N4), a type of advanced ceramic material. CESI 16044 bore dia is 220 mm. Its out dia is 340 mm. CESI 16044 width is 37 mm. This bearing offers superior performance in terms of resistance to heat, corrosion, and wear, making it ideal for specific applications where these properties are crucial.
What Benefits Can CESI 16044 Bearing Provide?
- High-Temperature Resistance: Silicon nitride's ability to withstand extreme temperatures ensures this bearing maintain its performance even in heat-intensive applications.
- Corrosion and Chemical Resistance: CESI 16044 Bearing remains durable in environments exposed to corrosive chemicals.
- Low Friction: Reduced friction attributes to minimal wear, less heat generation, and an extended operational lifespan of the bearing.
- Non-Magnetic: Being ceramic, silicon nitride is inherently non-magnetic, making CESI 16044 Bearing ideal for applications where magnetic interference is a concern.
- Electrical Insulation: Silicon nitride is non-conductive, making it ideal for applications requiring electrical insulation.
What Can CESI 16044 Bearing Be Used for?
CESI 16044 Bearing excels in unique applications due to its specific properties:
- Precision Machine Tools: Especially in high-speed spindle applications where precision and reduced friction are paramount.
- Electric Motors: Used in settings where high efficiency and performance are required. The non-conductive nature ensures minimal electrical interference.
- Aerospace Equipment: For instruments and systems sensitive to weight and where resistance to extreme conditions is essential, like satellite gyroscopes and guidance systems.
- Medical Devices: In high-performance equipment like MRI machines, surgical instruments, and dental drills, where precision, hygiene, and reduced noise are crucial.
- High-Performance Vehicles: In race cars or motorcycles, for wheel and engine bearings, to handle high speeds with reduced heat production.
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