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Roller Bearings(Outer Ring Type:With Retaining Ring Grooves)
Roller bearings are utilized in various applications across different industries due to their ability to support radial and axial loads efficiently. Some common uses include Industrial Machinery, Automotive, Medical Equipment, and so on. When selecting roller bearings, it is crucial to consider factors such as Inner Diameter, Outer Diameter, Load Direction, Type of roller bearing (e.g. Needle Roller, Self-Aligning, Cylindrical Roller, and so on), material, and so on. These considerations are vital to ensure the production of high-quality products. We highly recommend reputable brands like MISUMI, NTN, and NSK for their quality and reliability. Additionally, cost-effective options from MISUMI ECONOMY are available for those seeking economical solutions. Take advantage of the convenience of free shipping and no minimum order when purchasing roller bearings. If you have any doubts or require assistance in choosing the right product, our experts are readily available to assist.
Cylindrical roller bearings are suitable for applications involving high-speed rotation because the friction between the rolling elements and the flange of the track wheel is small. Products on this page: N type
Inner Dia. d(Ø)
Outer Dia. D(Ø)
Raceway Ring Shape
Load Direction
Width B(mm)
Outer Ring
Number of Raceway Ring Rows
Inner/Outer Ring Material
Specifications
Outer Ring Type
Precision (JIS)
Rolling Element Material
Size Standards
40 ~ 170
68 ~ 260
Cylindrical Roller
Radial
38 ~ 122
With Outer Ring
Double Row
Steel
Standard
With Retaining Ring Grooves
Class 0
Steel
Metric System
From:
₹ 4,105.60
Days to Ship:
5 Day(s) or more
5 Day(s) or more
You can add up to 6 items per a category to the compare list.
Designed as a thin wall type, the SL Model double-row cylindrical roller bearing supports enormous radial and impact loads. Therefore, it is ideal for use in parts subject to medium low-speed large loads. This bearing has various uses, such as in construction machinery, vehicles, steel machinery and lifting equipment, etc.
Inner Dia. d(Ø)
Outer Dia. D(Ø)
Raceway Ring Shape
Load Direction
Width B(mm)
Outer Ring
Number of Raceway Ring Rows
Inner/Outer Ring Material
Specifications
Outer Ring Type
Precision (JIS)
Rolling Element Material
Size Standards
45 ~ 120
75 ~ 180
Cylindrical Roller
Radial
40 ~ 80
With Outer Ring
Single Row
Steel
Standard
With Retaining Ring Grooves
Class 0
Steel
Metric System
From:
₹ 8,314.91
Days to Ship:
5 Day(s) or more
5 Day(s) or more
Brand
Product Series
CAD
From
Days to Ship
Inner Dia. d(Ø)
Outer Dia. D(Ø)
Raceway Ring Shape
Load Direction
Width B(mm)
Outer Ring
Number of Raceway Ring Rows
Inner/Outer Ring Material
Specifications
Outer Ring Type
Precision (JIS)
Rolling Element Material
Size Standards
You can add up to 6 items per a category to the compare list.
You can add up to 6 items per a category to the compare list.
You can add up to 6 items per a category to the compare list.
Question: What are the different types of roller bearings?
Answer: The different types of roller bearings are:
1. Cylindrical Roller Bearings: Suitable for moderate-speed operations with high radial-load capacity and moderate thrust loads.
2. Spherical Roller Bearings: Designed to carry heavy axial and radial loads at high speeds, even with misalignment or shaft deflection. Available with cylindrical or tapered bores.
3. Needle Roller Bearings: Feature thin, long rollers for high radial load capacities in limited space and high-speed rotational applications.
4. Tapered Roller Bearings: Support radial and thrust loads, commonly used in automotive wheel hubs, gearboxes, and industrial equipment. Available in inch and metric sizes. These bearings find applications in various industries, including heavy equipment, machinery and manufacturing.
Question: What are the advantages of using roller bearings?
Answer: Here are some Advantages of roller bearings:
1. Reduced friction for lower starting and running friction, except at very high speeds.
2. Ability to withstand momentary shock loads.
3. Accurate shaft alignment.
4. Low manufacturing cost.
5. Moderate lubricant requirements and low friction.
6. Capability to support both radial and axial loads.
7. Long bearing life.
8. Suitable for mass production with stable quality.
9. Can support combined radial and thrust loads simultaneously.
Question: How do I choose the right roller bearing for my application?
Answer: Here are some steps to guide you in selecting the appropriate bearing:
1. Load Requirements: Understand the magnitude and direction of the load to determine the appropriate load capacity.
2. Speed: Consider the rotational speed of the application to ensure it aligns with the bearing's capabilities.
3. Environmental Conditions: Evaluate temperature, humidity, and exposure to contaminants to select a bearing that can withstand the operating environment.
4. Bearing Type: Choose from various types like cylindrical, spherical, needle, or tapered roller bearings based on load, speed, and operating conditions.
5. Bearing Material: Select suitable materials such as stainless steel, chrome steel, ceramic, or plastic, considering load, speed, temperature, and environmental factors.
6. Lubrication Needs: Determine lubrication requirements, including type, viscosity, and replenishment intervals, to ensure smooth operation and longevity.
7. Special Features or Requirements: Consider any specific features like seals, shields, precision tolerances, or coatings needed for your application.
Question: Can roller bearings handle axial loads?
Answer: Yes, Roller bearings can indeed handle axial loads, though most are designed primarily for radial loads. Certain designs, such as cylindrical roller bearings with flanges on both inner and outer rings, and axial spherical roller bearings, are capable of supporting axial loads. However, roller bearings generally have lower axial load capacities compared to radial loads.
Question: How do I maintain and lubricate roller bearings?
Answer: The guidelines for maintaining and lubricating roller bearings effectively including
1. Selection of Lubricant: Choose lubricant based on application and environment, such as mineral oil, synthetic oil, or greases like lithium soap or polyalphaolefin.
2. Lubrication Techniques: Utilize methods such as oil drip feed or grease lubrication.
3. Lubrication Schedule: Establish a schedule based on application and environmental factors and regularly inspect bearings for wear and adjust the schedule accordingly.
4. Monitoring Performance: Regularly monitor for signs of issues such as increased vibration, excessive heat, lubricant loss, or contamination and address any problems promptly to prevent premature bearing failure.
Question: What are the signs of roller bearing failure?
Answer: Signs of roller bearing failure include excessive vibration, increased temperature, noise, lubricant contamination, and friction. Initial indicators often begin with abnormal vibration, progressing to elevated temperature and noise. Contaminated lubricants exacerbate friction, leading to heat generation and eventual failure.
Question: How long do roller bearings typically last?
Answer: The lifespan of roller bearings is determined by factors like rotations or operating hours, with fatigue symptoms indicating failure. The L10 life, representing the hours or rotations before 90% of bearings fail, estimates bearing life. Ratings are based on hours at a set speed, influenced by load, speed, lubrication, and conditions. Average roller bearing life is usually 4 to 5 times the L10 life, potentially longer under favorable conditions.
Question: Can roller bearings be used in extreme temperatures?
Answer: Roller bearings have differing temperature thresholds depending on their design, lubrication, and operational conditions. Traditional bearings can typically function in temperatures up to 149°C, while specialized high-temperature bearings can endure temperatures up to 450°C. However, excessive heat can decrease efficiency, induce wear and expansion, and compromise seals or grease. It's vital to select appropriate bearings and lubricants tailored to specific applications and environmental conditions to ensure optimal performance and longevity.
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