KD080CP0
1/2" Constant Section Bearings
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Basic Information
Main Dimensions
Inner Ring Dimensions
Outer Ring Dimensions
Performance
Materials
Environment & Compliance
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KD080CP0 Bearing Product Overview & Core Advantages
The KD080CP0 is a high-performance thin section bearing engineered for applications demanding space optimization and precision. As part of the Reali-Slim Open Bearings series with a single row construction, it delivers exceptional radial load capacity in a remarkably compact cross-section. Manufactured to ABEC-1 precision standards, this bearing is ideal for systems requiring high positional accuracy and smooth operation, making it a superior choice for weight-sensitive and space-constrained designs.
KD080CP0 Bearing Model Code Explained, Specifications & Naming Convention
- KD: Series designation for Reali-Slim thin section bearings.
- 080: Indicates a bore diameter of 8.0 inches.
- C: Specifies the cross-section size/type.
- P0: Denotes a standard radial internal clearance and ABEC-1 tolerance class.
KD080CP0 Bearing Structural Features & Performance Benefits
- Optimized Thin-Section Design: With an 8" bore, 9" outside diameter, and a width of only 0.5", this bearing provides a large diameter in a minimal cross-section, maximizing space efficiency and reducing overall system weight.
- High Load Capacity & Rigidity: The single row ball construction, combined with a brass cage, ensures stable operation and a high radial dynamic load rating of 2520 lbf.
- Precision Performance: Manufactured to ABEC-1 standards with tight bore and OD tolerances, it guarantees smooth, low-vibration, and high-accuracy rotation.
- Durable Material Construction: Rings and balls made from Chrome Steel provide excellent wear resistance and longevity, suitable for a wide temperature range of -30°C to 110°C.
KD080CP0 Bearing Typical Application Areas
- Robotics: Joints and actuators where space and weight are critical.
- Aerospace & Defense: Gimbals, control mechanisms, and radar systems.
- Medical Equipment: MRI scanners, surgical robots, and diagnostic devices.
- Semiconductor Manufacturing: Precision stages and wafer handling equipment.
- Optical and Instrumentation Systems: Rotary tables and scanning devices requiring high precision.