CE3302SIPP

CE3302SIPP Silicon Nitride-Double Row Angular Contact
Part Number CE3302SIPP
System of Measurement Metric
Bearing Type Ball
For Load Direction Angular Contact
Construction Double Row
Seal Type Sealed
Bore Dia 15 mm
Bore Dia Tolerance -0.008 mm to 0
Outer Dia 42 mm
Outer Dia Tolerance -0.011 mm to 0
Width 19 mm
Width Tolerance -0.12 mm to 0
Chamfer Dimension (r1 2)(min) 1 mm
Distance Pressure Point (a) 24 mm
Ring Material Silicon Nitride
Balls Material Si3n4
Cage Material PEEK
Dynamic Radial Load 764 lbf
Static Radial Load 470 lbf
Max Speed (X1000 rpm) 12.24
Lubrication Dry
Temperature Range -176 to 1472 °F
ABEC Rating ABEC-1
ROHS Compliant
REACH Compliant
Weight 0.05 kg

Design Features of CE3302SIPP Bearing

CE3302SIPP Bearing is characterized by its double-row angular contact configuration and the use of silicon nitride (Si3N4) ceramic balls. Its bore dia is 15 mm. Its out dia is 42 mm. Its width is 19 mm. CE3302SIPP Bearing is a sophisticated type of bearing designed to meet the needs of applications requiring high precision, durability, and load capacity.

 

What Benefits Can CE3302SIPP Bearing Provide?

  • Increased Load Capacity: The double-row design enables higher axial and radial load handling, ideal for heavy-duty applications.
  • High-Speed Operation: Silicon nitride's low density reduces friction, allowing for efficient high-speed performance with minimal heat generation.
  • Durability: Exceptional wear resistance of silicon nitride extends the bearing's life, especially in harsh conditions.
  • Thermal Stability: This bearing remains stable across a wide temperature range, ensuring consistent performance in varied environments.
  • Corrosion Resistance: Silicon nitride is highly resistant to corrosion, enhancing the bearing's longevity in aggressive settings.
  • Electrical Insulation: The non-conductive nature of silicon nitride provides electrical insulation, protecting against electrical damage.

 

What Can CE3302SIPP Bearing Be Used for?

CE3302SIPP Bearing is suitable for applications such as:

  • Industrial Machinery: In applications where both load capacity and precision are key, such as in manufacturing equipment.
  • Aerospace and Defense: For components that require reliability under high loads and in extreme conditions.
  • Automotive Engineering: In high-performance vehicles where robustness and speed are vital.
  • Advanced Technology Equipment: In semiconductor manufacturing and robotics where precision and durability are crucial.
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