A Timken bearing cross reference is an indispensable tool that allows you to identify the correct replacement bearing for your specific application. It provides a comprehensive list of Timken bearing numbers and their corresponding industry-standard numbers, ensuring you find the exact fit for your equipment.
Utilizing a Timken bearing cross reference is paramount for several reasons:
Using a Timken bearing cross reference is straightforward:
To assist you in selecting the right replacement bearing, we have compiled three comprehensive cross reference tables:
| Timken Number | SKF Number |
|---|---|
| 32004A | 6204-2RS1 |
| 32006A | 6206-2RS1 |
| 32008A | 6208-2RS1 |
| Timken Number | NSK Number |
|---|---|
| 32004A | H6204 |
| 32006A | H6206 |
| 32008A | H6208 |
| Timken Number | NTN Number |
|---|---|
| 32004A | SNR6204 |
| 32006A | SNR6206 |
| 32008A | SNR6208 |
To ensure optimal performance, consider the following strategies when selecting a replacement bearing:
Follow these steps to utilize a Timken bearing cross reference effectively:
Pros:
Cons:
Where can I find a Timken bearing cross reference?
- You can find cross reference tables in Timken's technical documentation, online databases, or third-party resources.
What other factors should I consider when selecting a replacement bearing?
- Load capacity, speed requirements, environmental conditions, and lubrication type.
Can I use a Timken bearing cross reference to identify bearings from other manufacturers?
- Yes, cross reference tables often include industry-standard numbers that can be used to identify bearings from other manufacturers.
Is it important to use the exact replacement bearing specified by the OEM?
- Yes, using the recommended bearing ensures proper fit, performance, and reliability.
How can I avoid selecting the wrong replacement bearing?
- Always use a cross reference table or consult with bearing experts to ensure accurate selection.
What are some common mistakes to avoid when using a Timken bearing cross reference?
- Misinterpreting bearing numbers, ignoring environmental factors, and overlooking lubrication requirements.
A factory worker was tasked with replacing a faulty motor bearing. However, they mistakenly grabbed a cross reference that was for a different motor model. The result was a mismatched bearing that caused excessive vibration, leading to equipment shutdown.
Lesson: Verify the exact bearing number and equipment specifications before making a replacement.
A technician replaced a bearing in an outdoor application without considering the harsh weather conditions. The bearing lacked proper seals, allowing moisture to penetrate and cause premature failure.
Lesson: Understand the environmental factors and select a bearing with appropriate seals and lubricants.
A heavy-duty equipment operator overloaded a bearing with excessive force. Ignoring the bearing's load capacity limits resulted in bearing damage and downtime.
Lesson: Determine the expected load and speed conditions to ensure the bearing is capable of handling the application's demands.
Utilize the Timken bearing cross reference to make informed decisions when selecting replacement bearings. By following the strategies and guidance provided in this guide, you can ensure optimal performance and extend the lifespan of your equipment. Consult with bearing experts whenever necessary to ensure the right choice for your specific application.
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