INA KH08-B, Bearing with 15mm Outside Diameter

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£10.20

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£12.24

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RS Stock No.:
172-1275
Mfr. Part No.:
KH08-B
Brand:
INA
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Brand

INA

Inside Diameter

8mm

Outside Diameter

15mm

Length

24mm

Linear Bearing Type

Linear Ball Bearing

Inner Diameter

8mm

Linear Ball Bearing Type

Closed

Seals

Without Seals

Dynamic Load Rating

475N

Static Load Rating

400N

Schaeffler Bearing, 8mm Inside Diameter, 15mm Outside Diameter - KH08-B


This bearing is a linear ball bearing designed for precision motion applications. With an inner diameter of 8mm and an outer diameter of 15mm, it measures 24mm in length, making it suitable for various mechanical setups where linear movement is essential. The bearing is closed and does not include seals, ensuring smooth operation in environments where contaminants are minimal.

Features & Benefits


• High dynamic load rating of 475N for durability
• Static load rating of 400N for robustness in requirements
• Closed linear design enhances precision in linear motion
• Suitable for automation and electronic systems
• Compatible with several linear motion components

Applications


• Used for machinery requiring precise linear movement
• Ideal for automation in electronic assembly lines
• Suitable for robotics for smooth operation
• Recommended for mechanical devices needing stable support
• Suitable for in high-tech equipment assemblies

What capabilities do the dynamic and static load ratings provide?


The dynamic load rating of 475N indicates the maximum load the bearing can handle during continuous operation, ensuring reliability in moving applications. The static load rating of 400N reflects the load capacity when at rest, supporting stationary positions without deformation.

How does the closed design of this bearing benefit its operation?


A closed design ensures that the ball bearings are contained within the housing, providing greater precision in linear movement and reducing the risk of contamination from external debris, allowing for smoother operations in clean environments.

In what scenarios would the absence of seals be advantageous?


The absence of seals is beneficial in applications where cleanliness is maintained, preventing debris from compromising performance while facilitating unhindered motion, critical in high-speed or precision-driven mechanisms.

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