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FAG 6303.P5 deep groove ball bearing with 17mm bore. ISO P5 precision class and ball guided cage ensure high running accuracy. Suitable for applications requiring reduced vibration and noise. Schaeffler Group quality.
MODEL 6303.P5
$263.38 Each
Prices are subject to change
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Returnable:No
Bore Type
Straight
Cage
Ball Guided
Cage Material
Steel
Closure Type
Open
Fillet Radius
1 mm
Finish Coating
Uncoated
I.D.
2/3 in
Max Rpm
22300 rpm
O.D.
47 mm
Operating Temperature Range
Maximum of +120°C
Overall Width
14 mm
Precision Rating
ABEC 5 (ISO Class 5)
Product Type
Radial & Deep Groove Ball Bearings
Radial Dynamic Load Capacity
14400 N
Radial Static Load Capacity
6500 N
Row Type Fill Slot
Single Row Non-Fill Slot
Seal Type
Open
Series
63
Snap Ring Included
Without Snap Ring
Standards Met
DIN 625-1
Bearings The FAG 6303.P5 Radial Deep Groove Ball Bearing is engineered for high performance and reliability, making it an essential component in various automotive and industrial applications. With its advanced design and superior material quality, this bearing ensures optimal functionality and longevity, contributing to enhanced operational efficiency in machinery and vehicles.
Key Features
| Design | Deep groove ball bearing configuration, allowing for efficient radial and axial load support. |
|---|---|
| Dimensions | Inner diameter of 17 mm, outer diameter of 47 mm, and a width of 14 mm, optimal for standard applications. |
| Material | Constructed from high-quality steel, ensuring robustness and durability under varying load conditions. |
| X-life Technology | Enhanced performance and service life, offering lower friction and increased load capacity compared to standard bearings. |
| Sealing Solutions | Equipped with high-performance seals to protect against contaminants, ensuring longevity in challenging environments. |
Applications
| Automotive Industry | Ideal for use in engines, gearboxes, and wheel hubs, providing reliable support for rotating components. |
|---|---|
| Industrial Machinery | Suitable for applications in conveyor systems, pumps, and electric motors where high-speed operation is crucial. |
| Compatibility | Designed to fit a wide range of equipment and machinery, making it a versatile choice for various applications. |
| Environmental Suitability | Performs effectively in both dust and moisture-laden environments, thanks to its sealing solutions. |
Benefits
| Reliability | Proven performance in critical applications, reducing the risk of unexpected downtime and maintenance costs. |
|---|---|
| Efficiency | Low friction design leads to reduced energy consumption, enhancing overall system efficiency. |
| Durability | High-quality construction extends the service life of the bearing, ensuring long-term performance and decreased replacement frequency. --- Product information compiled with AI assistance for reference purposes. |
How do I choose the right type of bearing for my application?
Start with the load and how it’s applied. You need to know if you’re dealing with radial loads, axial loads, or a mix of both. Then look at speed, operating environment, and space constraints. For example, ball bearings are great for high speed and lighter loads, while roller bearings handle heavier loads but usually at lower speeds. If there’s contamination, moisture, or heat involved, you may need sealed bearings or specific materials. In most cases, the right choice comes down to matching load type, speed, and environment to the bearing design.
What is the difference between deep groove and angular contact ball bearings?
Deep groove ball bearings are the most common type. They’re designed to handle mainly radial loads, but they can also take some axial load in both directions. They’re simple, versatile, and used in everything from motors to conveyors. Angular contact ball bearings are built for combined loads, especially where there’s significant axial force in one direction. They’re often used in pairs and are common in higher precision or higher load applications like pumps and gearboxes. If your load is mostly radial, go deep groove. If axial load matters more, angular contact is usually the better choice.