K17008CP0
8mm 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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K17008CP0 Bearing Product Overview & Core Advantages
The K17008CP0 is a thin section metric bearing designed for applications requiring compact design and precise radial load handling. As a single row ball bearing with open construction, it delivers reliable performance in space-constrained assemblies. Manufactured to ABEC-1 precision class, this bearing offers excellent dimensional stability and smooth operation. Its ultra-thin 8mm cross-section combined with a substantial 170mm bore makes it ideal for precision machinery where weight and space optimization are critical.
K17008CP0 Bearing Model Code Explained, Specifications & Naming Convention
| Code Segment | Technical Meaning |
|---|---|
| K | Metric series designation |
| 170 | Bore diameter: 170mm |
| 08 | Cross-section: 8mm |
| C | Radial internal clearance specification |
| P | Precision level designation |
| 0 | Contact angle and cage type specification |
K17008CP0 Bearing Structural Features & Performance Benefits
This thin section bearing features a single row design with brass cage construction that ensures optimal ball guidance and minimal friction. The open seal type allows for high-speed operation while maintaining precise dimensional tolerances. With a radial dynamic load rating of 1512 lbf and static load capacity of 3895 lbf, it provides reliable performance under significant radial stresses. The tight radial internal clearance (0.0000 – 0.0005") ensures minimal vibration and precise rotational accuracy, making it suitable for precision applications. The combination of chrome steel rings and chrome steel balls delivers exceptional durability and wear resistance.
K17008CP0 Bearing Typical Application Areas
- Robotics and automation systems requiring compact bearing solutions
- Aerospace components where weight reduction is critical
- Medical equipment requiring precise motion control
- Semiconductor manufacturing equipment demanding high precision
- Optical positioning systems needing minimal deflection
- Precision instrumentation with space constraints