KC200CP0
3/8" Constant Section Bearings
Image may differ from product. See technical specification for details.
Basic Information
Main Dimensions
Inner Ring Dimensions
Outer Ring Dimensions
Performance
Materials
Environment & Compliance
- Fast delivery
- Free shipping on orders over $200
- Enjoy discounts on bulk purchases
- Secure Payment
- Fast Global Shipping
KC200CP0 Bearing Product Overview & Core Advantages
The KC200CP0 is a high-performance thin section bearing designed for applications requiring precise motion control in compact spaces. As a Reali-Slim Open Bearing with single row construction, it delivers exceptional radial load capacity while maintaining an ultra-thin cross-section. Manufactured to ABEC-1 precision standards with chrome steel components and brass cage, this bearing offers reliable performance in precision equipment where space and weight constraints are critical.
KC200CP0 Bearing Model Code Explained, Specifications & Naming Convention
| Code Segment | Technical Meaning |
|---|---|
| KC200 | Bearing series designation for 20" bore diameter thin section bearings |
| C | Radial internal clearance specification (C3 equivalent) |
| P0 | Normal precision grade (ABEC-1 equivalent) |
KC200CP0 Bearing Structural Features & Performance Benefits
Thin Section Design: With only 0.375" width and minimal cross-section, this bearing enables compact machine designs while maintaining structural integrity.
High Load Capacity: The single row ball bearing construction provides radial dynamic load rating of 2626 lbf and radial static load rating of 9800 lbf, ensuring reliable performance under substantial radial loads.
Precision Engineering: Manufactured to ABEC-1 tolerance class with controlled radial internal clearance (0.0000 – 0.0005"), delivering consistent performance in precision applications.
Material Excellence: Chrome steel rings and balls combined with brass cage provide excellent wear resistance and dimensional stability across the operating temperature range of -30°C to 110°C.
KC200CP0 Bearing Typical Application Areas
- Robotics and Automation: Rotary joints and precision positioning systems
- Aerospace Equipment: Control mechanisms and instrumentation where weight and space are critical
- Medical Devices: Imaging equipment and surgical robotics requiring precise motion control
- Semiconductor Manufacturing: Wafer handling equipment and precision stages
- Optical Systems: Precision rotary tables and positioning mechanisms