K17013CP0
13mm 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
K17013CP0 Bearing Product Overview & Core Advantages
The K17013CP0 is a thin-section metric ball bearing engineered for applications demanding compact design and high precision. As part of the Reali-Slim mm Metric Bearings series, this single row bearing excels in handling radial loads efficiently while maintaining a minimal cross-section. Its ABEC-1 precision class ensures reliable performance in high-accuracy systems, making it an ideal component for space-constrained, weight-sensitive machinery where consistent rotational accuracy is paramount.
K17013CP0 Bearing Model Code Explained, Specifications & Naming Convention
| Code Segment | Technical Meaning |
|---|---|
| K | Metric series designation |
| 170 | Bore diameter: 170 mm |
| 13 | Cross-section width: 13 mm |
| C | Radial internal clearance specification |
| P | Precision class designation (ABEC-1) |
| 0 | Open seal configuration |
K17013CP0 Bearing Structural Features & Performance Benefits
This bearing's thin-section design (13mm width with 170mm bore) provides significant space and weight savings without compromising load capacity. The brass cage ensures stable ball guidance and smooth operation, while the chrome steel construction of both rings and balls delivers exceptional durability and wear resistance. With a radial dynamic load rating of 2853 lbf and static load rating of 6128 lbf, it offers reliable performance under substantial radial stresses. The tight dimensional tolerances (bore: -0.025mm to 0, width: +.000 –.254mm) guarantee precise fitment and consistent operation in precision assemblies.
K17013CP0 Bearing Typical Application Areas
- Robotics and automation systems requiring compact, high-precision rotary joints
- Aerospace components where weight reduction is critical
- Medical equipment such as CT scanners and surgical robots
- Semiconductor manufacturing equipment demanding precise motion control
- Optical positioning systems and precision instrumentation
- Industrial machinery with space-constrained bearing arrangements