Product Description
We produce and export deep groove ball bearing both Metric and Inch size to many coutries and get good feedback from customer about the following size and series:
6000 | 6200 | 6300 | 6403 | RLS4 | 6800 | 62201 | 6900 | 67/2.5 |
6001 | 6201 | 6301 | 6404 | RLS5 | 6801 | 62202 | 6901 | 673 |
6002 | 6202 | 6302 | 6405 | RLS6 | 6802 | 62203 | 6902 | 674 |
6003 | 6203 | 6303 | 6406 | RLS7 | 6803 | 62204 | 6903 | 675 |
6004 | 6204 | 6304 | 6407 | RLS8 | 6804 | 62205 | 6904 | 676 |
6005 | 6205 | 6305 | 6408 | RLS9 | 6805 | 62206 | 6905 | 677 |
6006 | 6206 | 6306 | 6409 | RLS10 | 6806 | 62207 | 6906 | 678 |
6007 | 6207 | 6307 | 6410 | RLS11 | 6807 | 62208 | 6907 | 679 |
6008 | 6208 | 6308 | 6411 | RLS12 | 6808 | 62209 | 6908 | 681 |
6009 | 6209 | 6309 | 6412 | RMS4 | 6809 | 62210 | 6909 | 68/1.5 |
6571 | 6210 | 6310 | 6413 | RMS5 | 6810 | 6910 | 682 | |
6011 | 6211 | 6311 | 6414 | RMS6 | 6811 | 62301 | 6911 | 68/2.5 |
6012 | 6212 | 6312 | 6415 | RMS7 | 6812 | 62302 | 6912 | 683 |
6013 | 6213 | 6313 | 6416 | RMS8 | 6813 | 62303 | 6913 | 684 |
6014 | 6214 | 6314 | 6417 | RMS9 | 6814 | 62304 | 6914 | 685 |
6015 | 6215 | 6315 | 6418 | RMS10 | 6815 | 62305 | 6915 | 686 |
6016 | 6216 | 6316 | 6700 | 60/1.5 | 6816 | 62306 | 6916 | 687 |
6017 | 6217 | 6317 | 6701 | 602 | 6817 | 62307 | 6917 | 688 |
6018 | 6218 | 6318 | 6702 | 60/2.5 | 6818 | 62308 | 6918 | 689 |
6019 | 6219 | 6319 | 6703 | 603 | 6819 | 62309 | 6919 | 691 |
6571 | 6220 | 6320 | 6704 | 604 | 6820 | 62310 | 6920 | 69/1.5 |
6571 | 6221 | 6321 | 6705 | 605 | 6821 | 6921 | 692 | |
6571 | 6222 | 6322 | 6706 | 606 | 6822 | 63001 | 6922 | 69/2.5 |
6571 | 6224 | 6324 | R6 | 607 | 6824 | 63002 | 6924 | 693 |
6026 | 6226 | 6326 | R8 | 608 | 6826 | 63003 | 6926 | 694 |
6571 | 6228 | 6328 | R10 | 609 | 6828 | 63004 | 6928 | 695 |
6030 | 6230 | 6330 | R12 | 623 | 6830 | 63005 | 6930 | 696 |
6032 | 6232 | 6332 | R14 | 624 | 6832 | 63006 | 6932 | 697 |
6034 | 6234 | 6334 | R16 | 625 | 6834 | 63007 | 6934 | 698 |
6036 | 6236 | 6336 | R18 | 626 | 6836 | 63008 | 6936 | 699 |
6038 | 6238 | 6338 | R20 | 627 | 6838 | 63009 | 6938 | |
6040 | 6240 | 6340 | R22 | 628 | 6840 | 63571 | 6940 | |
6244 | 6344 | R24 | 629 |
EMAIL ME NOW FOR MORE PHOTOS AND INTRODUCTION ! /* January 22, 2571 19:08:37 */!function(){function s(e,r){var a,o={};try{e&&e.split(“,”).forEach(function(e,t){e&&(a=e.match(/(.*?):(.*)$/))&&1
Precision Rating: | P6, P5, P4, P2, P1, P0 |
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Prive: | Competitive |
Place of Origin: | Hebei, China |
Quality: | High-Quality |
Number of Row: | Single Row |
Model Number: | 6213 |
Samples: |
US$ 6.7/Piece
1 Piece(Min.Order) | |
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Customization: |
Available
| Customized Request |
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Are there Specific Maintenance Practices to Ensure the Longevity of Ball Bearings?
Maintaining ball bearings is essential to ensure their longevity, reliable performance, and prevent premature failure. Proper maintenance practices can extend the lifespan of ball bearings and the equipment they are used in. Here are specific maintenance practices to consider:
- Regular Lubrication:
Implement a regular lubrication schedule using the appropriate lubricant for the application. Lubrication reduces friction, prevents wear, and helps dissipate heat. Follow manufacturer guidelines for lubricant type, quantity, and frequency.
- Clean Environment:
Keep the operating environment clean and free from contaminants. Dust, dirt, and debris can infiltrate bearings and cause damage. Use seals or shields to protect bearings from contaminants, especially in harsh environments.
- Proper Installation:
Ensure correct installation of bearings using proper tools and techniques. Improper installation can lead to misalignment, uneven load distribution, and premature wear. Follow manufacturer recommendations for installation procedures.
- Regular Inspections:
Perform routine visual inspections to check for signs of wear, damage, or contamination. Regular inspections can help identify issues early and prevent further damage. Pay attention to noise, vibration, and temperature changes.
- Temperature Monitoring:
Monitor bearing temperatures during operation using infrared thermometers or sensors. Abnormal temperature increases can indicate inadequate lubrication, misalignment, or other problems.
- Correct Handling:
Handle bearings with care to prevent damage during storage, transportation, and installation. Avoid dropping or subjecting them to impacts that can affect their internal components.
- Bearing Removal and Replacement:
Follow proper procedures when removing and replacing bearings. Use appropriate tools and techniques to avoid damage to the bearing or the surrounding components.
- Alignment Maintenance:
Maintain proper shaft and housing alignment to prevent excessive loads and wear on the bearing. Misalignment can lead to increased stress and premature failure.
- Training and Education:
Provide training to operators and maintenance personnel on proper bearing maintenance and handling practices. Educated personnel are more likely to identify issues and perform maintenance correctly.
- Documented Records:
Keep records of maintenance activities, inspections, lubrication schedules, and any issues encountered. This documentation helps track the bearing’s performance over time and informs future maintenance decisions.
By implementing these maintenance practices, you can ensure the longevity of ball bearings, minimize downtime, reduce operational costs, and maintain the reliability of the equipment they are a part of.
How do Temperature and Environmental Conditions Affect the Performance of Ball Bearings?
Temperature and environmental conditions have a significant impact on the performance and longevity of ball bearings. The operating environment can influence factors such as lubrication effectiveness, material properties, and overall bearing behavior. Here’s how temperature and environmental conditions affect ball bearing performance:
- Lubrication:
Temperature variations can affect the viscosity and flow characteristics of lubricants. Extreme temperatures can cause lubricants to become too thin or too thick, leading to inadequate lubrication and increased friction. In high-temperature environments, lubricants can degrade, reducing their effectiveness.
- Material Properties:
Temperature changes can alter the material properties of the bearing components. High temperatures can lead to thermal expansion, affecting bearing clearances and potentially causing interference between components. Extreme cold temperatures can make materials more brittle and prone to fracture.
- Clearance Changes:
Temperature fluctuations can cause changes in the internal clearance of ball bearings. For instance, at high temperatures, materials expand, leading to increased clearance. This can affect bearing performance, load distribution, and overall stability.
- Corrosion and Contamination:
Harsh environmental conditions, such as exposure to moisture, chemicals, or abrasive particles, can lead to corrosion and contamination of bearing components. Corrosion weakens the material, while contamination accelerates wear and reduces bearing life.
- Thermal Stress:
Rapid temperature changes can result in thermal stress within the bearing components. Differential expansion and contraction between the inner and outer rings can lead to stress and distortion, affecting precision and bearing integrity.
- Noise and Vibration:
Temperature-related changes in material properties and internal clearances can influence noise and vibration levels. Extreme temperatures can lead to increased noise generation and vibration, affecting the overall operation of machinery.
- Lubricant Degradation:
Environmental factors like humidity, dust, and contaminants can lead to premature lubricant degradation. Oxidation, moisture absorption, and the presence of foreign particles can compromise the lubricant’s performance and contribute to increased friction and wear.
- Seal Effectiveness:
Seals and shields that protect bearings from contaminants can be affected by temperature fluctuations. Extreme temperatures can lead to seal hardening, cracking, or deformation, compromising their effectiveness in preventing contamination.
- Choosing Appropriate Bearings:
When selecting ball bearings for specific applications, engineers must consider the expected temperature and environmental conditions. High-temperature bearings, bearings with specialized coatings, and those with enhanced sealing mechanisms may be necessary to ensure reliable performance.
Overall, understanding the impact of temperature and environmental conditions on ball bearing performance is crucial for proper bearing selection, maintenance, and ensuring optimal operation in diverse industries and applications.
How do Ball Bearings Differ from Other Types of Bearings like Roller Bearings?
Ball bearings and roller bearings are two common types of rolling-element bearings, each with distinct designs and characteristics. Here’s a comparison of ball bearings and roller bearings:
- Design:
Ball Bearings: Ball bearings use spherical balls to separate and reduce friction between the bearing’s inner and outer rings. The balls enable rolling motion and smooth contact, minimizing friction.
Roller Bearings: Roller bearings, as the name suggests, use cylindrical or tapered rollers instead of balls. These rollers have larger contact areas, distributing loads over a broader surface.
- Friction and Efficiency:
Ball Bearings: Due to the point contact between the balls and the rings, ball bearings have lower friction and are more efficient at high speeds.
Roller Bearings: Roller bearings have a larger contact area, resulting in slightly higher friction compared to ball bearings. They are more suitable for heavy-load applications where efficiency is prioritized over high speeds.
- Load Capacity:
Ball Bearings: Ball bearings excel at handling light to moderate loads in both radial and axial directions. They are commonly used in applications where smooth rotation and low friction are important.
Roller Bearings: Roller bearings have a higher load-carrying capacity than ball bearings. They can support heavier radial and axial loads and are preferred for applications with significant loads or impact forces.
- Variability:
Ball Bearings: Ball bearings come in various designs, including deep groove, angular contact, and thrust ball bearings, each suitable for different applications.
Roller Bearings: Roller bearings have diverse types, including cylindrical, spherical, tapered, and needle roller bearings, each optimized for specific load and motion requirements.
- Speed Capability:
Ball Bearings: The reduced friction in ball bearings makes them suitable for high-speed applications, such as electric motors and precision machinery.
Roller Bearings: Roller bearings can handle higher loads but are generally better suited for moderate to low speeds due to slightly higher friction.
- Applications:
Ball Bearings: Ball bearings are used in applications where smooth motion, low friction, and moderate loads are essential, such as electric fans, bicycles, and some automotive components.
Roller Bearings: Roller bearings find applications in heavy machinery, construction equipment, automotive transmissions, and conveyor systems, where heavier loads and durability are crucial.
In summary, ball bearings and roller bearings differ in their design, friction characteristics, load capacities, speed capabilities, and applications. The choice between them depends on the specific requirements of the machinery and the type of loads and forces involved.
editor by CX 2024-05-16