KA030CP0
1/4" 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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KA030CP0 Bearing Product Overview & Core Advantages
The KA030CP0 is a thin section bearing from the Reali-Slim Open Bearings series, designed with a single row construction for radial load applications. Engineered with inch system measurements, this bearing features an exceptionally slim cross-section (0.25" width) relative to its bore diameter (3"), enabling compact and lightweight designs in space-constrained applications. Manufactured to ABEC-1 precision tolerance class, it delivers reliable performance with chrome steel rings and balls for durability, and a brass cage for stable operation.
KA030CP0 Bearing Model Code Explained, Specifications & Naming Convention
| Code Segment | Technical Meaning |
|---|---|
| KA | Reali-Slim® series designation |
| 030 | Bore diameter code (3 inches) |
| C | Cross-section code (0.25" width) |
| P | ABEC-1 precision tolerance class |
| 0 | Open design (no seals or shields) |
KA030CP0 Bearing Structural Features & Performance Benefits
This bearing's thin section design provides significant space and weight savings while maintaining structural integrity. The single row construction with brass cage ensures smooth operation and precise ball guidance. With a radial dynamic load rating of 487 lbf and static load rating of 990 lbf, it delivers reliable performance in radial load applications. The tight radial internal clearance (0.0000 – 0.0005") contributes to precise positioning accuracy. The open construction allows for custom lubrication schemes while the chrome steel components provide excellent wear resistance and durability across the operating temperature range of -30°C to 110°C.
KA030CP0 Bearing Typical Application Areas
- Robotics and automation systems - where compact design and precise motion are critical
- Aerospace and defense equipment - requiring lightweight components with reliable performance
- Medical imaging devices - needing precise positioning in limited spaces
- Semiconductor manufacturing equipment - demanding high precision and reliability
- Optical positioning systems - requiring minimal deflection and high accuracy
- Rotary tables and indexing mechanisms - where space optimization is essential