Product Description
JA035CP0 Thin Section sealed Ball Bearing with a 1/4″ cross section width, JA035CP0 bearing is a popular item that could be used in many applications, the dimensions are 3 1/2″ x 4″ x 1/4″ inch, JA035CP0 bearing has Brass balls retainer, JA035CP0 bearing is oil preserved.Item: JA035CP0 Ball BearingType: Deep groove Radial Ball BearingMaterial: Chrome SteelBrand: Cage: BrassClosures: OpenDimensions: 3 1/2″ x 4″ x 1/4″ inchID (inner diameter)/Bore: 3 1/2″ inchOD (outer diameter): 4″ inchWidth/Height/thickness: 1/4″ inchSize: 3.5″ x 4″ x 0.25″Cross Section: 1/4″ inchDynamic load rating: 2095 NStatic load rating: 5836 NQuantity: One BearingKAA opening type 4.762mm(CP0/XP0/AR0
KAA571,KAA015,KAA017
KA opening type 6.35mm(CP0/XP0/AR0
KA571,KA571,KA030,KA035,KA040,KA042,
KA045,KA050,KA055,KA060,KA065,KA070,
KA075,KA080,KA090,KA100,KA110,KA120,
KA140,KA180,KA200
KB opening type 7.938mm(CP0/XP0/AR0
KB571,KB571,KB030,KB035,KB040,KB042,
KB045,KB050,KB055,KB060,KB065,KB070,
KB075,KB080,KB090,KB100,KB110,KB120,
KB140,KB180,KB200
KC opening 9.525mm(CP0/XP0/AR0
KC040,KC042,KC045,KC050,KC055,KC060,
KC065,KC070,KC075,KC080,KC090,KC100,
KC110,KC120,KC140,KC180,KC200
KD opening type 12.7mm(CP0/XP0/AR0
KD040,KD042,KD045,KD050,KD055,KD060,
KD065,KD070,KD075,KD080,KD090,KD100,
KD110,KD120,KD140,KD180,KD200
KF opening type 19.05mm(CP0/XP0/AR0
KF040,KF042,KF045,KF050,KF055,KF060,
KF065,KF070,KF075,KF080,KF090,KF100,
KF110,KF120,KF140,KF180,KF200
KG open 25.4mm(CP0/XP0/AR0
KG040,KG042,KG045,KG050,KG055,
KG060,KG065,KG070,KG075,KG080,
KG090,KG100,KG110,KG120,KG140,
KG180,KG200,KG250,KG300,KG400
JA seals 6.35mm(CP0/XP0/A
JHA571,JHA015,JA571,JA571,JA030,JA035,
JA040,JA042,JA045,JA050,JA055,JA060,JA065
JB seals 7.938mm(CP0/XP0/AR
JB571,JB571,JB030,JB035,JB040,JB042,
JB045,JB050,JB055,JB060,JB065
JU seals 12.7mm(CP0/XP0/AR
JU040,JU042,JU045,JU050,JU055,JU060,
JU065,JU070,JU075,JU080,JU090,JU100,
JU110,JU120
JG seals 25.4mm(CP0/XP0/AR0
JG120,JG140,JG160,JG180
5mm-360mm is 8mm,13mm,20mm
thick 8mm (CP0/XP0/
K57108,K05008,K06008,K07008,K08008,K09008,K10008,K11008,
K12008,K13008,K14008,K15008,K16008,K17008,K1K20008,K25008,K30008,K32008,K34008,K36 thick 13mm open (CP0/XP0/
K57113,K05013,K06013,K 0571 3,K08013,K 0571 3,K10013,K11013,
K12013,K13013,K14013,K15013,K16013,K17013,K18013,K19013,
K20013,K25013,K30013,K32013,K34013,K36013
T20mm(CP0/XP0/
K571hinck 20,K 0571 1,K06571,K5711,K 0571 1,K09571,K1571,K11571,
K12571,K13571,K14571,K15571,K16571,K17571,K18571,K19571,
K2571,K25571,K3571,K32571,K34571,K36571
thick 8mm Seals (CP0/XP0/ARO
J57108,J05008,J06008,J07008,J08008,J09008,J10008,J11008,
J12008,J13008,J14008,J15008,J16008,J1700
/* 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: | P0.P6.P5 |
---|---|
Cage Material: | Brass.Nylon Plastic Full Ball |
Outer Ring: | Chrome Steel |
Inner Ring: | Gcr15 |
Weight: | 8.845kg |
Contact Angle: | 25° |
How does Proper Lubrication Impact the Performance and Longevity of Tapered Roller Bearings?
Proper lubrication is essential for ensuring optimal performance and longevity of tapered roller bearings. Lubrication plays a critical role in reducing friction, preventing wear, and managing heat generated during operation. Here’s how proper lubrication impacts tapered roller bearings:
- Reduced Friction:
Lubrication forms a thin film between the rolling elements and raceways, reducing direct metal-to-metal contact. This minimizes friction and the associated heat generation, allowing the bearing to operate smoothly and efficiently.
- Wear Prevention:
Lubrication forms a protective barrier that prevents wear and surface damage. Without proper lubrication, friction can lead to accelerated wear, pitting, and even surface scoring, shortening the bearing’s lifespan.
- Heat Dissipation:
Effective lubrication helps dissipate heat generated during operation. This is especially crucial in high-speed applications where excessive heat can lead to premature bearing failure or degradation of lubricant properties.
- Corrosion Protection:
Lubrication helps create a barrier that protects bearing surfaces from environmental factors that could lead to corrosion. This is particularly important in applications exposed to moisture, chemicals, or other corrosive agents.
- Noise and Vibration Reduction:
Proper lubrication can dampen vibrations and reduce noise by providing a cushioning effect between the rolling elements and raceways. This contributes to smoother and quieter operation.
- Longevity:
Well-lubricated bearings experience less wear and stress, leading to extended service life. Bearings that are inadequately lubricated or run dry are prone to premature failure due to excessive wear, heat buildup, and damage to bearing surfaces.
- Efficiency:
Adequate lubrication maintains the bearing’s efficiency by minimizing energy losses due to friction. Bearings that lack proper lubrication require more energy to overcome higher friction levels, resulting in reduced efficiency.
- Lubrication Methods:
Various lubrication methods are available, including grease lubrication and oil lubrication. The choice depends on factors such as speed, load, temperature, and application requirements.
To ensure proper lubrication:
- Follow Manufacturer Recommendations:
Consult the bearing manufacturer’s recommendations for lubricant type, viscosity, and replenishment intervals.
- Monitor and Maintain:
Regularly monitor the condition of the lubricant and the bearing’s performance. Implement a maintenance schedule for lubricant replacement or replenishment.
- Environmental Considerations:
Consider the operating environment’s temperature, contamination levels, and exposure to external elements. Some applications may require special lubricants for extreme conditions.
In summary, proper lubrication is crucial for maintaining tapered roller bearings’ performance, preventing wear, reducing friction and heat, and extending their lifespan. A well-lubricated bearing contributes to smoother operation, lower maintenance costs, and improved efficiency.
What are the Common Signs of Wear or Damage in Tapered Roller Bearings?
Identifying signs of wear or damage in tapered roller bearings is crucial for maintaining optimal performance and preventing costly failures. Here are the common signs to look for:
- Abnormal Noise:
Unusual noises, such as grinding, clicking, or rumbling sounds, may indicate damage within the bearing. These noises could result from worn rollers, raceways, or insufficient lubrication.
- Vibration:
Excessive vibration or unusual vibrations not typically present during operation may indicate an issue with the bearing. Vibration can result from misalignment, worn components, or uneven loading.
- Increased Operating Temperature:
If the bearing becomes excessively hot during operation, it could indicate inadequate lubrication, excessive friction, or other issues. Monitoring temperature changes can help identify potential problems.
- Irregular Rotation:
If the bearing experiences irregular rotation, such as sticking or rough movement, it could be due to damaged rollers, misalignment, or improper preload.
- Visible Wear:
Inspect the bearing for visible signs of wear or damage, such as pitting, scoring, discoloration, or deformation of the bearing components.
- Increased Noise or Vibration Under Load:
If the bearing makes more noise or vibrates noticeably when subjected to load, it could indicate that the bearing is unable to handle the applied load properly.
- Uneven Wear:
Uneven wear patterns on the rollers or raceways can suggest misalignment or inadequate lubrication, causing the bearing to experience uneven loading.
- Loss of Performance:
If the bearing’s performance decreases, such as reduced efficiency or increased friction, it may indicate wear, contamination, or other issues affecting the bearing’s operation.
- Looseness or Play:
If there’s excessive play or looseness in the bearing assembly, it could be a sign of worn components or inadequate preload, impacting the bearing’s stability and performance.
- Leaks or Contaminants:
Inspect for leaks of lubricant or the presence of contaminants around the bearing. Leaks can indicate seal damage, and contaminants can accelerate wear.
- Observable Damage to Components:
If any bearing components, such as rollers, cages, or raceways, appear visibly damaged or deformed, immediate attention is necessary to prevent further issues.
Regular inspection and maintenance are essential to catch these signs early and prevent further damage. Addressing wear or damage promptly can extend the bearing’s lifespan and avoid costly downtime.
Can you Explain the Design and Construction of Tapered Roller Bearings?
The design and construction of tapered roller bearings are characterized by their conical geometry and specific components that enable them to handle radial and axial loads simultaneously. Here’s an overview of their design and construction:
- Components:
Tapered roller bearings consist of the following components:
- Inner Ring:
The inner ring has a conical raceway on its inner surface, which matches the conical shape of the rollers. It serves as the raceway for the rollers and provides support to the rotating assembly.
- Outer Ring:
The outer ring also features a conical raceway on its inner surface that complements the shape of the rollers. The outer ring provides a rigid structure to house the entire bearing assembly.
- Tapered Rollers:
The rollers have a conical shape with varying diameters along their length. This design allows the rollers to make point contact with the inner and outer raceways, distributing loads efficiently.
- Cage:
The cage or retainer holds the rollers in position, maintaining proper spacing and preventing them from coming into contact with each other. The cage material can vary, and its design may affect factors like friction and heat generation.
- Conical Geometry:
The distinguishing feature of tapered roller bearings is their conical geometry. The conical angle is defined by the contact angle between the roller axis and the bearing axis. This angle facilitates effective load distribution and axial load support.
- Load Distribution:
The conical shape of the rollers and raceways allows tapered roller bearings to handle both radial and axial loads. Radial loads are primarily supported by the larger diameter of the rollers at the large end of the cone, while axial loads are absorbed by the smaller diameter near the small end of the cone.
- Adjustable Clearance and Preload:
Many tapered roller bearings allow for adjustable internal clearance or preload. This feature enables fine-tuning of the bearing’s internal play, optimizing performance and minimizing friction.
- Thrust Capability:
Tapered roller bearings can handle thrust (axial) loads in one direction, making them suitable for applications where axial loads need to be managed along with radial loads.
- Applications:
Tapered roller bearings find applications in various industries, including automotive, heavy machinery, aerospace, and more. They are used in scenarios that require efficient load distribution and handling of combined loads.
In summary, tapered roller bearings are designed with conical geometry to accommodate both radial and axial loads. Their specific components, such as tapered rollers and a cage, work together to ensure effective load distribution, making them suitable for a wide range of industrial applications.
editor by CX 2024-05-08
China Custom Sc060cpo Chrome Steel CZPT Catalog Ultra Reali Slim Wall Roller Silverthin Ball Tapered Thrust Angular Contact Metric Sleeve Thin Section Bearings bearing and race
Product Description
KAA opening type 4.762mm(CP0/XP0/AR0
KAA571,KAA015,KAA017
KA opening type 6.35mm(CP0/XP0/AR0
KA571,KA571,KA030,KA035,KA040,KA042,
KA045,KA050,KA055,KA060,KA065,KA070,
KA075,KA080,KA090,KA100,KA110,KA120,
KA140,KA180,KA200
KB opening type 7.938mm(CP0/XP0/AR0
KB571,KB571,KB030,KB035,KB040,KB042,
KB045,KB050,KB055,KB060,KB065,KB070,
KB075,KB080,KB090,KB100,KB110,KB120,
KB140,KB180,KB200
KC opening 9.525mm(CP0/XP0/AR0
KC040,KC042,KC045,KC050,KC055,KC060,
KC065,KC070,KC075,KC080,KC090,KC100,
KC110,KC120,KC140,KC180,KC200
KD opening type 12.7mm(CP0/XP0/AR0
KD040,KD042,KD045,KD050,KD055,KD060,
KD065,KD070,KD075,KD080,KD090,KD100,
KD110,KD120,KD140,KD180,KD200
KF opening type 19.05mm(CP0/XP0/AR0
KF040,KF042,KF045,KF050,KF055,KF060,
KF065,KF070,KF075,KF080,KF090,KF100,
KF110,KF120,KF140,KF180,KF200
KG open 25.4mm(CP0/XP0/AR0
KG040,KG042,KG045,KG050,KG055,
KG060,KG065,KG070,KG075,KG080,
KG090,KG100,KG110,KG120,KG140,
KG180,KG200,KG250,KG300,KG400
JA seals 6.35mm(CP0/XP0/A
JHA571,JHA015,JA571,JA571,JA030,JA035,
JA040,JA042,JA045,JA050,JA055,JA060,JA065
JB seals 7.938mm(CP0/XP0/AR
JB571,JB571,JB030,JB035,JB040,JB042,
JB045,JB050,JB055,JB060,JB065
JU seals 12.7mm(CP0/XP0/AR
JU040,JU042,JU045,JU050,JU055,JU060,
JU065,JU070,JU075,JU080,JU090,JU100,
JU110,JU120
JG seals 25.4mm(CP0/XP0/AR0
JG120,JG140,JG160,JG180
5mm-360mm is 8mm,13mm,20mm
thick 8mm (CP0/XP0/
K57108,K05008,K06008,K07008,K08008,K09008,K10008,K11008,
K12008,K13008,K14008,K15008,K16008,K17008,K1K20008,K25008,K30008,K32008,K34008,K36 thick 13mm open (CP0/XP0/
K57113,K05013,K06013,K 0571 3,K08013,K 0571 3,K10013,K11013,
K12013,K13013,K14013,K15013,K16013,K17013,K18013,K19013,
K20013,K25013,K30013,K32013,K34013,K36013
T20mm(CP0/XP0/
K571hinck 20,K 0571 1,K06571,K5711,K 0571 1,K09571,K1571,K11571,
K12571,K13571,K14571,K15571,K16571,K17571,K18571,K19571,
K2571,K25571,K3571,K32571,K34571,K36571
thick 8mm Seals (CP0/XP0/ARO
J57108,J05008,J06008,J07008,J08008,J09008,J10008,J11008,
J12008,J13008,J14008,J15008,J16008,J1700
/* 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: | P0.P6.P5 |
---|---|
Cage Material: | Brass.Nylon Plastic Full Ball |
Outer Ring: | Chrome Steel |
Inner Ring: | Gcr15 |
Weight: | 0.113kg |
Structure: | Xpo Aro Cpo |
What Factors should be Considered when Selecting a Tapered Roller Bearing for a Specific Application?
Choosing the right tapered roller bearing for a specific application involves considering various factors to ensure optimal performance and reliability. Here are the key factors to consider:
- Load Requirements:
Assess the types and magnitudes of both radial and axial loads the bearing will experience. Choose a tapered roller bearing with a load capacity that comfortably exceeds the expected loads to prevent premature wear or failure.
- Speed:
Determine the required rotational speed of the bearing. High-speed applications may require bearings designed for reduced friction and heat generation to maintain efficiency and avoid overheating.
- Precision and Tolerance:
Consider the level of precision required for the application. Tapered roller bearings are available in different precision classes, such as ABEC (Annular Bearing Engineering Committee) grades, which impact factors like smoothness and accuracy of rotation.
- Mounting and Installation:
Assess the available space for mounting the bearing and consider the ease of installation. Bearings with adjustable clearance or preload might be advantageous for fine-tuning the bearing’s internal play.
- Temperature and Environment:
Take into account the operating temperature range and environmental conditions of the application. Extreme temperatures or corrosive environments may require specific bearing materials or coatings.
- Lubrication:
Choose an appropriate lubricant based on the application’s speed, temperature, and load conditions. Proper lubrication ensures smooth operation, reduces friction, and prolongs the bearing’s lifespan.
- Cost and Budget:
Consider the budget allocated for bearings. High-precision or specialized bearings may come at a higher cost, but their performance benefits can outweigh the initial investment over the bearing’s service life.
- Application Type:
Identify the specific industry and application in which the bearing will be used. Tapered roller bearings are employed in various sectors, including automotive, heavy machinery, aerospace, and more.
- Expected Lifespan:
Estimate the required bearing lifespan for the application. Factors such as load, speed, and maintenance practices can impact the bearing’s longevity.
- Bearing Size and Design:
Choose a bearing size that fits within the application’s space constraints while providing the necessary load capacity. The design, including the number and arrangement of rollers, can influence load distribution and performance.
- Maintenance Requirements:
Consider the maintenance schedule and accessibility for bearing inspection and replacement. Bearings in applications with limited maintenance intervals may require enhanced durability.
In conclusion, selecting a tapered roller bearing for a specific application involves assessing load requirements, speed, precision, mounting, temperature, lubrication, cost, application type, expected lifespan, bearing size, and maintenance considerations. Careful evaluation of these factors ensures that the chosen bearing meets the demands of the application while providing reliable performance and longevity.
What are the Common Signs of Wear or Damage in Tapered Roller Bearings?
Identifying signs of wear or damage in tapered roller bearings is crucial for maintaining optimal performance and preventing costly failures. Here are the common signs to look for:
- Abnormal Noise:
Unusual noises, such as grinding, clicking, or rumbling sounds, may indicate damage within the bearing. These noises could result from worn rollers, raceways, or insufficient lubrication.
- Vibration:
Excessive vibration or unusual vibrations not typically present during operation may indicate an issue with the bearing. Vibration can result from misalignment, worn components, or uneven loading.
- Increased Operating Temperature:
If the bearing becomes excessively hot during operation, it could indicate inadequate lubrication, excessive friction, or other issues. Monitoring temperature changes can help identify potential problems.
- Irregular Rotation:
If the bearing experiences irregular rotation, such as sticking or rough movement, it could be due to damaged rollers, misalignment, or improper preload.
- Visible Wear:
Inspect the bearing for visible signs of wear or damage, such as pitting, scoring, discoloration, or deformation of the bearing components.
- Increased Noise or Vibration Under Load:
If the bearing makes more noise or vibrates noticeably when subjected to load, it could indicate that the bearing is unable to handle the applied load properly.
- Uneven Wear:
Uneven wear patterns on the rollers or raceways can suggest misalignment or inadequate lubrication, causing the bearing to experience uneven loading.
- Loss of Performance:
If the bearing’s performance decreases, such as reduced efficiency or increased friction, it may indicate wear, contamination, or other issues affecting the bearing’s operation.
- Looseness or Play:
If there’s excessive play or looseness in the bearing assembly, it could be a sign of worn components or inadequate preload, impacting the bearing’s stability and performance.
- Leaks or Contaminants:
Inspect for leaks of lubricant or the presence of contaminants around the bearing. Leaks can indicate seal damage, and contaminants can accelerate wear.
- Observable Damage to Components:
If any bearing components, such as rollers, cages, or raceways, appear visibly damaged or deformed, immediate attention is necessary to prevent further issues.
Regular inspection and maintenance are essential to catch these signs early and prevent further damage. Addressing wear or damage promptly can extend the bearing’s lifespan and avoid costly downtime.
What are the Common Signs of Wear or Damage in Tapered Roller Bearings?
Identifying signs of wear or damage in tapered roller bearings is crucial for maintaining optimal performance and preventing costly failures. Here are the common signs to look for:
- Abnormal Noise:
Unusual noises, such as grinding, clicking, or rumbling sounds, may indicate damage within the bearing. These noises could result from worn rollers, raceways, or insufficient lubrication.
- Vibration:
Excessive vibration or unusual vibrations not typically present during operation may indicate an issue with the bearing. Vibration can result from misalignment, worn components, or uneven loading.
- Increased Operating Temperature:
If the bearing becomes excessively hot during operation, it could indicate inadequate lubrication, excessive friction, or other issues. Monitoring temperature changes can help identify potential problems.
- Irregular Rotation:
If the bearing experiences irregular rotation, such as sticking or rough movement, it could be due to damaged rollers, misalignment, or improper preload.
- Visible Wear:
Inspect the bearing for visible signs of wear or damage, such as pitting, scoring, discoloration, or deformation of the bearing components.
- Increased Noise or Vibration Under Load:
If the bearing makes more noise or vibrates noticeably when subjected to load, it could indicate that the bearing is unable to handle the applied load properly.
- Uneven Wear:
Uneven wear patterns on the rollers or raceways can suggest misalignment or inadequate lubrication, causing the bearing to experience uneven loading.
- Loss of Performance:
If the bearing’s performance decreases, such as reduced efficiency or increased friction, it may indicate wear, contamination, or other issues affecting the bearing’s operation.
- Looseness or Play:
If there’s excessive play or looseness in the bearing assembly, it could be a sign of worn components or inadequate preload, impacting the bearing’s stability and performance.
- Leaks or Contaminants:
Inspect for leaks of lubricant or the presence of contaminants around the bearing. Leaks can indicate seal damage, and contaminants can accelerate wear.
- Observable Damage to Components:
If any bearing components, such as rollers, cages, or raceways, appear visibly damaged or deformed, immediate attention is necessary to prevent further issues.
Regular inspection and maintenance are essential to catch these signs early and prevent further damage. Addressing wear or damage promptly can extend the bearing’s lifespan and avoid costly downtime.
editor by CX 2024-05-07
China best Sg055aro Chrome Steel CZPT Catalog Ultra Reali Slim Wall Roller Silverthin Ball Tapered Thrust Angular Contact Metric Sleeve Thin Section Bearings deep groove ball bearing
Product Description
KAA opening type 4.762mm(CP0/XP0/AR0
KAA571,KAA015,KAA017
KA opening type 6.35mm(CP0/XP0/AR0
KA571,KA571,KA030,KA035,KA040,KA042,
KA045,KA050,KA055,KA060,KA065,KA070,
KA075,KA080,KA090,KA100,KA110,KA120,
KA140,KA180,KA200
KB opening type 7.938mm(CP0/XP0/AR0
KB571,KB571,KB030,KB035,KB040,KB042,
KB045,KB050,KB055,KB060,KB065,KB070,
KB075,KB080,KB090,KB100,KB110,KB120,
KB140,KB180,KB200
KC opening 9.525mm(CP0/XP0/AR0
KC040,KC042,KC045,KC050,KC055,KC060,
KC065,KC070,KC075,KC080,KC090,KC100,
KC110,KC120,KC140,KC180,KC200
KD opening type 12.7mm(CP0/XP0/AR0
KD040,KD042,KD045,KD050,KD055,KD060,
KD065,KD070,KD075,KD080,KD090,KD100,
KD110,KD120,KD140,KD180,KD200
KF opening type 19.05mm(CP0/XP0/AR0
KF040,KF042,KF045,KF050,KF055,KF060,
KF065,KF070,KF075,KF080,KF090,KF100,
KF110,KF120,KF140,KF180,KF200
KG open 25.4mm(CP0/XP0/AR0
KG040,KG042,KG045,KG050,KG055,
KG060,KG065,KG070,KG075,KG080,
KG090,KG100,KG110,KG120,KG140,
KG180,KG200,KG250,KG300,KG400
JA seals 6.35mm(CP0/XP0/A
JHA571,JHA015,JA571,JA571,JA030,JA035,
JA040,JA042,JA045,JA050,JA055,JA060,JA065
JB seals 7.938mm(CP0/XP0/AR
JB571,JB571,JB030,JB035,JB040,JB042,
JB045,JB050,JB055,JB060,JB065
JU seals 12.7mm(CP0/XP0/AR
JU040,JU042,JU045,JU050,JU055,JU060,
JU065,JU070,JU075,JU080,JU090,JU100,
JU110,JU120
JG seals 25.4mm(CP0/XP0/AR0
JG120,JG140,JG160,JG180
5mm-360mm is 8mm,13mm,20mm
thick 8mm (CP0/XP0/
K57108,K05008,K06008,K07008,K08008,K09008,K10008,K11008,
K12008,K13008,K14008,K15008,K16008,K17008,K1K20008,K25008,K30008,K32008,K34008,K36 thick 13mm open (CP0/XP0/
K57113,K05013,K06013,K 0571 3,K08013,K 0571 3,K10013,K11013,
K12013,K13013,K14013,K15013,K16013,K17013,K18013,K19013,
K20013,K25013,K30013,K32013,K34013,K36013
T20mm(CP0/XP0/
K571hinck 20,K 0571 1,K06571,K5711,K 0571 1,K09571,K1571,K11571,
K12571,K13571,K14571,K15571,K16571,K17571,K18571,K19571,
K2571,K25571,K3571,K32571,K34571,K36571
thick 8mm Seals (CP0/XP0/ARO
J57108,J05008,J06008,J07008,J08008,J09008,J10008,J11008,
J12008,J13008,J14008,J15008,J16008,J1700
/* 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: | P0.P6.P5 |
---|---|
Cage Material: | Brass.Nylon Plastic Full Ball |
Outer Ring: | Chrome Steel |
Inner Ring: | Gcr15 |
Weight: | 0.113kg |
Structure: | Xpo Aro Cpo |
What Advantages do Tapered Roller Bearings Offer Compared to Other Bearing Types?
Tapered roller bearings offer several advantages that make them a preferred choice in various applications compared to other bearing types. These advantages stem from their unique design and capabilities. Here’s a look at the benefits of tapered roller bearings:
- High Load-Carrying Capacity:
Tapered roller bearings can handle both radial and axial loads simultaneously, making them suitable for applications with combined loads. Their conical geometry allows for effective load distribution, enabling them to support heavy loads without premature wear.
- Efficient Axial Load Handling:
Tapered roller bearings excel at managing axial (thrust) loads in one direction. This capability is crucial in applications where axial loads are present, such as automotive transmissions or industrial machinery.
- Reduced Friction and Heat Generation:
The conical shape of the rollers and the matching raceways result in point contact, reducing friction and minimizing heat generation. This efficiency contributes to improved overall performance and energy savings.
- Adjustable Clearance and Preload:
Tapered roller bearings often allow for adjustable internal clearance or preload. This feature enables fine-tuning of the bearing’s play, optimizing performance and extending the bearing’s lifespan.
- High Precision:
Tapered roller bearings are available in various precision classes to meet different application requirements. Their precision makes them suitable for applications demanding accurate motion control and positioning.
- Versatility:
Tapered roller bearings are used in a wide range of industries and applications, from automotive and heavy machinery to aerospace and industrial equipment. Their ability to handle diverse loads and conditions contributes to their versatility.
- Durability:
Tapered roller bearings are designed to withstand shocks and impacts, making them suitable for applications with dynamic loads or vibrations. Their robust construction contributes to their overall durability.
- High-Speed Capability:
Tapered roller bearings can operate at high speeds due to their efficient contact geometry and reduced friction. This makes them suitable for applications requiring rapid rotation.
- Cost-Effectiveness:
While the initial cost may vary, tapered roller bearings are often cost-effective due to their long service life and ability to handle heavy loads. Their durability can lead to reduced maintenance and replacement costs over time.
- Compatibility with Combined Loads:
Tapered roller bearings are well-suited for applications where radial and axial loads occur simultaneously, eliminating the need for multiple bearing types and simplifying design and installation.
In summary, tapered roller bearings offer a combination of load-carrying capacity, efficiency, adjustability, precision, and versatility that sets them apart from other bearing types. Their ability to handle a variety of loads and conditions makes them an advantageous choice in numerous industrial applications.
What Factors should be Considered when Selecting a Tapered Roller Bearing for a Specific Application?
Choosing the right tapered roller bearing for a specific application involves considering various factors to ensure optimal performance and reliability. Here are the key factors to consider:
- Load Requirements:
Assess the types and magnitudes of both radial and axial loads the bearing will experience. Choose a tapered roller bearing with a load capacity that comfortably exceeds the expected loads to prevent premature wear or failure.
- Speed:
Determine the required rotational speed of the bearing. High-speed applications may require bearings designed for reduced friction and heat generation to maintain efficiency and avoid overheating.
- Precision and Tolerance:
Consider the level of precision required for the application. Tapered roller bearings are available in different precision classes, such as ABEC (Annular Bearing Engineering Committee) grades, which impact factors like smoothness and accuracy of rotation.
- Mounting and Installation:
Assess the available space for mounting the bearing and consider the ease of installation. Bearings with adjustable clearance or preload might be advantageous for fine-tuning the bearing’s internal play.
- Temperature and Environment:
Take into account the operating temperature range and environmental conditions of the application. Extreme temperatures or corrosive environments may require specific bearing materials or coatings.
- Lubrication:
Choose an appropriate lubricant based on the application’s speed, temperature, and load conditions. Proper lubrication ensures smooth operation, reduces friction, and prolongs the bearing’s lifespan.
- Cost and Budget:
Consider the budget allocated for bearings. High-precision or specialized bearings may come at a higher cost, but their performance benefits can outweigh the initial investment over the bearing’s service life.
- Application Type:
Identify the specific industry and application in which the bearing will be used. Tapered roller bearings are employed in various sectors, including automotive, heavy machinery, aerospace, and more.
- Expected Lifespan:
Estimate the required bearing lifespan for the application. Factors such as load, speed, and maintenance practices can impact the bearing’s longevity.
- Bearing Size and Design:
Choose a bearing size that fits within the application’s space constraints while providing the necessary load capacity. The design, including the number and arrangement of rollers, can influence load distribution and performance.
- Maintenance Requirements:
Consider the maintenance schedule and accessibility for bearing inspection and replacement. Bearings in applications with limited maintenance intervals may require enhanced durability.
In conclusion, selecting a tapered roller bearing for a specific application involves assessing load requirements, speed, precision, mounting, temperature, lubrication, cost, application type, expected lifespan, bearing size, and maintenance considerations. Careful evaluation of these factors ensures that the chosen bearing meets the demands of the application while providing reliable performance and longevity.
What are Tapered Roller Bearings and How do They Function in Machinery?
Tapered roller bearings are a type of rolling element bearing designed to handle both radial and axial loads by providing a conical geometry. They consist of inner and outer rings, tapered rollers, and a cage that holds the rollers in place. Tapered roller bearings are commonly used in various machinery and equipment for their ability to support high radial and axial loads simultaneously. Here’s how they function in machinery:
- Geometry:
Tapered roller bearings have an inner ring with a conical surface and an outer ring with a matching conical surface. The rollers are also shaped like truncated cones. This geometry allows the rollers to make contact with both the inner and outer raceways at a common point on the bearing axis, distributing loads more effectively.
- Load Distribution:
The conical shape of tapered rollers enables them to handle both radial and axial loads. Radial loads are supported by the larger diameter of the rollers near the large end of the cone, while axial loads are absorbed by the smaller diameter near the small end of the cone.
- Adjustable Clearance:
Tapered roller bearings often allow for adjustable clearance or preload. This feature permits fine-tuning of the bearing’s internal play to optimize performance, reduce friction, and prevent excessive wear.
- Thrust Capability:
Tapered roller bearings can handle thrust (axial) loads in one direction, making them suitable for applications where axial loads need to be managed along with radial loads.
- Applications:
Tapered roller bearings are commonly used in various machinery and equipment:
- Automotive Industry:
Tapered roller bearings are widely used in wheel hubs, transmissions, and differential systems in automobiles, where they handle radial and axial loads experienced during driving.
- Heavy Machinery:
In construction equipment, mining machinery, and industrial machinery, tapered roller bearings support heavy loads and shocks, making them suitable for applications like earthmoving and material handling.
- Aerospace:
Tapered roller bearings are used in aircraft landing gear, where they support both vertical and horizontal loads during takeoff, landing, and taxiing.
- Railways:
In trains, tapered roller bearings are used in wheelsets and axles to manage radial and axial loads that occur as the train moves along curves and straight tracks.
- Wind Energy:
Tapered roller bearings are employed in wind turbine gearboxes, where they handle the radial and axial loads associated with converting wind energy into electrical power.
- Installation:
Installation of tapered roller bearings often involves adjusting the internal clearance or preload to optimize performance. Proper lubrication is crucial to ensure smooth operation and longevity.
In summary, tapered roller bearings function by utilizing their conical geometry to support both radial and axial loads, making them versatile components in a wide range of machinery and equipment across various industries.
editor by CX 2024-05-02
China Custom Thin Section Ball Bearings for Glass Processing Machinery (KB160AR0 KB180AR0 KB200AR0) Thin Wall Bearing Angular Contact Slim Ball Bearing bearing block
Product Description
Open type angular contact ball thin section bearing
Model | Dimension | |||||
d | D | Width | L1 | L2 | L3 | |
inch | ||||||
KA571AR0 | 2 | 2.5 | 0.25 | 2.186 | 2.314 | 2.369 |
KA571AR0 | 2.5 | 3 | 0.25 | 2.686 | 2.814 | 2.869 |
KA030AR0 | 3 | 3.5 | 0.25 | 3.186 | 3.314 | 3.367 |
KA035AR0 | 3.5 | 4 | 0.25 | 3.686 | 3.814 | 3.867 |
KA040AR0 | 4 | 4.5 | 0.25 | 4.186 | 4.314 | 4.367 |
KA042AR0 | 4.25 | 4.75 | 0.25 | 4.436 | 4.564 | 4.615 |
KA045AR0 | 4.5 | 5 | 0.25 | 4.686 | 4.814 | 4.865 |
KA047AR0 | 4.75 | 5.25 | 0.25 | 4.936 | 5.064 | 5.115 |
KA050AR0 | 5 | 5.5 | 0.25 | 5.186 | 5.314 | 5.365 |
KA055AR0 | 5.5 | 6 | 0.25 | 5.686 | 5.814 | 5.863 |
KA060AR0 | 6 | 6.5 | 0.25 | 6.186 | 6.314 | 6.363 |
KA065AR0 | 6.5 | 7 | 0.25 | 6.686 | 6.814 | 6.861 |
KA070AR0 | 7 | 7.5 | 0.25 | 7.186 | 7.314 | 7.361 |
KA075AR0 | 7.5 | 8 | 0.25 | 7.686 | 7.814 | 7.861 |
KA080AR0 | 8 | 8.5 | 0.25 | 8.186 | 8.314 | 8.359 |
KA090AR0 | 9 | 9.5 | 0.25 | 9.186 | 9.314 | 9.357 |
KA100AR0 | 10 | 10.5 | 0.25 | 10.186 | 10.314 | 10.355 |
KA110AR0 | 11 | 11.5 | 0.25 | 11.186 | 11.314 | 11.353 |
KA120AR0 | 12 | 12.5 | 0.25 | 12.186 | 12.314 | 12.349 |
KB571AR0 | 2 | 2.625 | 0.3125 | 2.231 | 2.393 | 2.464 |
KB571AR0 | 2.5 | 3.125 | 0.3125 | 2.731 | 2.893 | 2.964 |
KB030AR0 | 3 | 3.625 | 0.3125 | 3.231 | 3.393 | 3.462 |
KB035AR0 | 3.5 | 4.125 | 0.3125 | 3.731 | 3.893 | 3.962 |
KB040AR0 | 4 | 4.625 | 0.3125 | 4.231 | 4.393 | 4.46 |
KB042AR0 | 4.25 | 4.875 | 0.3125 | 4.481 | 4.643 | 4.71 |
KB045AR0 | 4.5 | 5.125 | 0.3125 | 4.731 | 4.893 | 4.96 |
KB047AR0 | 4.75 | 5.375 | 0.3125 | 4.981 | 5.143 | 5.21 |
KB050AR0 | 5 | 5.625 | 0.3125 | 5.231 | 5.393 | 5.46 |
KB055AR0 | 5.5 | 6.125 | 0.3125 | 5.731 | 5.893 | 5.958 |
KB060AR0 | 6 | 6.625 | 0.3125 | 6.231 | 6.393 | 6.458 |
KB065AR0 | 6.5 | 7.125 | 0.3125 | 6.731 | 6.893 | 6.958 |
KB070AR0 | 7 | 7.625 | 0.3125 | 7.231 | 7.393 | 7.456 |
KB075AR0 | 7.5 | 8.125 | 0.3125 | 7.731 | 7.893 | 7.955 |
KB080AR0 | 8 | 8.625 | 0.3125 | 8.231 | 8.393 | 8.453 |
KB090AR0 | 9 | 9.625 | 0.3125 | 9.231 | 9.393 | 9.451 |
KB100AR0 | 10 | 10.625 | 0.3125 | 10.231 | 10.393 | 10.449 |
KB110AR0 | 11 | 11.625 | 0.3125 | 11.231 | 11.393 | 11.447 |
KB120AR0 | 12 | 12.625 | 0.3125 | 12.231 | 12.393 | 12.445 |
KB140AR0 | 14 | 14.625 | 0.3125 | 14.231 | 14.393 | 14.439 |
KB160AR0 | 16 | 16.625 | 0.3125 | 16.231 | 16.393 | 16.433 |
KB180AR0 | 18 | 18.625 | 0.3125 | 18.231 | 18.393 | 18.425 |
KB200AR0 | 20 | 20.625 | 0.3125 | 20.231 | 20.393 | 20.416 |
KC040AR0 | 4 | 4.75 | 0.375 | 4.277 | 4.473 | 4.554 |
KC042AR0 | 4.25 | 5 | 0.375 | 4.527 | 4.723 | 4.804 |
KC045AR0 | 4.5 | 5.25 | 0.375 | 4.777 | 4.973 | 5.052 |
KC047AR0 | 4.75 | 5 | 0.375 | 5.571 | 5.223 | 5.302 |
KC050AR0 | 5 | 5.75 | 0.375 | 5.277 | 5.473 | 5.552 |
KC055AR0 | 5.5 | 6.25 | 0.375 | 5.777 | 5.973 | 6.052 |
KC060AR0 | 6 | 6.75 | 0.375 | 6.277 | 6.473 | 6.55 |
KC065AR0 | 6.5 | 7.25 | 0.375 | 6.777 | 6.973 | 7.05 |
KC070AR0 | 7 | 7.75 | 0.375 | 7.277 | 7.473 | 7.55 |
KC075AR0 | 7.5 | 8.25 | 0.375 | 7.777 | 7.793 | 8.048 |
KC080AR0 | 8 | 8.75 | 0.375 | 8.277 | 8.473 | 8.548 |
KC090AR0 | 9 | 9.75 | 0.375 | 9.277 | 9.473 | 9.546 |
KC100AR0 | 10 | 10.75 | 0.375 | 10.277 | 10.473 | 10.544 |
KC110AR0 | 11 | 11.75 | 0.375 | 11.277 | 11.473 | 11.542 |
KC120AR0 | 12 | 12.75 | 0.375 | 12.277 | 12.473 | 12.54 |
KC140AR0 | 14 | 14.75 | 0.375 | 14.277 | 14.473 | 14.535 |
KC160AR0 | 16 | 16.75 | 0.375 | 16.277 | 16.473 | 16.529 |
KC180AR0 | 18 | 18.75 | 0.375 | 18.277 | 18.473 | 18.523 |
KC200AR0 | 20 | 20.75 | 0.375 | 20.277 | 20.473 | 20.517 |
Model | Dimension | |||||
d | D | Width | L1 | L2 | L3 | |
inch | ||||||
KD040AR0 | 4 | 5 | 0.5 | 4.37 | 4.63 | 4.741 |
KD042AR0 | 4.25 | 5.25 | 0.5 | 4.62 | 4.88 | 4.991 |
KD045AR0 | 4.5 | 5.5 | 0.5 | 4.87 | 5.13 | 5.241 |
KD047AR0 | 4.75 | 5.75 | 0.5 | 5.12 | 5.38 | 5.49 |
KD050AR0 | 5 | 6 | 0.5 | 5.37 | 5.63 | 5.74 |
KD055AR0 | 5.5 | 6.5 | 0.5 | 5.87 | 6.13 | 6.238 |
KD060AR0 | 6 | 7 | 0.5 | 6.37 | 6.63 | 6.738 |
KD065AR0 | 6.5 | 7.5 | 0.5 | 6.87 | 7.13 | 7.236 |
KD070AR0 | 7 | 8 | 0.5 | 7.37 | 7.63 | 7.736 |
KD075AR0 | 7.5 | 8.5 | 0.5 | 7.87 | 8.13 | 8.236 |
KD080AR0 | 8 | 9 | 0.5 | 8.37 | 8.63 | 8.734 |
KD090AR0 | 9 | 10 | 0.5 | 9.37 | 9.63 | 9.732 |
KD100AR0 | 10 | 11 | 0.5 | 10.37 | 10.63 | 10.732 |
KD110AR0 | 11 | 12 | 0.5 | 11.37 | 11.63 | 11.73 |
KD120AR0 | 12 | 13 | 0.5 | 12.37 | 12.63 | 12.728 |
KD140AR0 | 14 | 15 | 0.5 | 14.37 | 14.63 | 14.724 |
KD160AR0 | 16 | 17 | 0.5 | 16.37 | 16.63 | 16.718 |
KD180AR0 | 18 | 19 | 0.5 | 18.37 | 18.63 | 18.712 |
KD200AR0 | 20 | 21 | 0.5 | 20.37 | 20.63 | 20.705 |
KF040AR0 | 4 | 5.5 | 0.75 | 4.555 | 4.945 | 5.115 |
KF042AR0 | 4.25 | 5.75 | 0.75 | 4.805 | 5.195 | 5.365 |
KF045AR0 | 4.5 | 6 | 0.75 | 5.005 | 5.445 | 5.615 |
KF047AR0 | 4.75 | 6.25 | 0.75 | 5.305 | 5.695 | 5.865 |
KF050AR0 | 5 | 6.5 | 0.75 | 5.555 | 5.945 | 6.115 |
KF055AR0 | 5.5 | 7 | 0.75 | 6.005 | 6.445 | 6.613 |
KF060AR0 | 6 | 7.5 | 0.75 | 6.555 | 6.945 | 7.113 |
KF065AR0 | 6.5 | 8 | 0.75 | 7.055 | 7.445 | 7.613 |
KF070AR0 | 7 | 8.5 | 0.75 | 7.555 | 7.845 | 8.113 |
KF075AR0 | 7.5 | 9 | 0.75 | 8.055 | 8.445 | 8.61 |
KF080AR0 | 8 | 9.5 | 0.75 | 8.555 | 8.945 | 9.11 |
KF090AR0 | 9 | 10.5 | 0.75 | 9.555 | 9.945 | 10.108 |
KF100AR0 | 10 | 11.5 | 0.75 | 10.555 | 10.945 | 11.106 |
KF110AR0 | 11 | 12.5 | 0.75 | 11.555 | 11.945 | 12.106 |
KF120AR0 | 12 | 13.5 | 0.75 | 12.555 | 12.945 | 13.104 |
KF140AR0 | 14 | 15.5 | 0.75 | 14.555 | 14.945 | 15.102 |
KF160AR0 | 16 | 17.5 | 0.75 | 16.555 | 16.945 | 17.098 |
KF180AR0 | 18 | 19.5 | 0.75 | 18.555 | 18.945 | 19.096 |
KF200AR0 | 20 | 21.5 | 0.75 | 20.555 | 20.945 | 21.092 |
KG040AR0 | 4 | 6 | 1 | 4.742 | 5.258 | 5.491 |
KG042AR0 | 4.25 | 6.25 | 1 | 4.992 | 5.508 | 5.741 |
KG045AR0 | 4.5 | 6.5 | 1 | 5.242 | 5.758 | 5.989 |
KG047AR0 | 4.75 | 6.75 | 1 | 5.492 | 6.008 | 6.239 |
KG050AR0 | 5 | 7 | 1 | 5.472 | 6.258 | 6.489 |
KG055AR0 | 5.5 | 7.5 | 1 | 6.242 | 6.758 | 6.989 |
KG060AR0 | 6 | 8 | 1 | 6.742 | 7.258 | 7.489 |
KG065AR0 | 6.5 | 8.5 | 1 | 7.242 | 7.758 | 7.987 |
KG070AR0 | 7 | 9 | 1 | 7.742 | 8.258 | 8.487 |
KG075AR0 | 7.5 | 9.5 | 1 | 8.242 | 8.758 | 8.987 |
KG080AR0 | 8 | 10 | 1 | 8.742 | 9.258 | 9.485 |
KG090AR0 | 9 | 11 | 1 | 9.742 | 10.258 | 10.485 |
KG100AR0 | 10 | 12 | 1 | 10.742 | 11.258 | 11.483 |
KG110AR0 | 11 | 13 | 1 | 11.742 | 12.258 | 12.481 |
KG120AR0 | 12 | 14 | 1 | 12.742 | 13.258 | 13.481 |
KG140AR0 | 14 | 15 | 1 | 14.742 | 15.258 | 15.478 |
KG160AR0 | 16 | 18 | 1 | 16.742 | 17.258 | 17.474 |
KG180AR0 | 18 | 20 | 1 | 18.742 | 19.258 | 19.472 |
KG200AR0 | 20 | 22 | 1 | 20.742 | 21.258 | 21.468 |
Thin Section Ball Bearing, is also call thin wall bearings, slim ball bearings, were developed for applications where space limitations are of the utmost importance. As the name implies, the difference between the inside and outside diameters of the rings has been minimized or thinned out. Of course this comes at a price by compromising load capacities. However, these bearings can still accommodate a relatively light radial thrust or combined loads.
CZPT is a professional manufacturer of all kinds of ball bearings, roller bearing, and precision bearing since 1993. Our bearings products and design solutions will enhance your product performance; Make your company more competitive, and make your job easier.
Material
Bearing steel Gcr15 or stainless steel
Structure
Open type deep groove ball bearing
Open type angular contact bearing
Open type 4 point contact bearing
Sealed type deep groove ball bearing
Sealed 4 point contact ball bearing
Feature
1. Compact structure, light weight, low vibration and friction
2. High precision,
3. Space and cost saving
4. Best quality, long life
Application
Aviation, astronomical instruments, glass manufacturing machinery, medical instrument, optical and scHangZhou instrument, satellite communication devices, textile machinery, large welding equipment, robot, semiconductor manufacturing equipment etc. Print machinery.
Open type angular contact ball bearing
KA571AR0, KA571AR0, KA030AR0, KA035AR0, KA040AR0, KA042AR0, KA045AR0, KA047AR0, KA050AR0, KA055AR0, KA060AR0, KA065AR0, KA070AR0, KA075AR0, KA080AR0, KA090AR0, KA100AR0, KA110AR0, KA120AR0,
KB571AR0, KB571AR0, KB030AR0, KB035AR0, KB040AR0, KB042AR0, KB045AR0, KB047AR0, KB050AR0, KB055AR0, KB060AR0, KB065AR0, KB070AR0, KB075AR0, KB080AR0, KB090AR0, KB100AR0, KB110AR0, KB120AR0, KB140AR0, KB160AR0, KB180AR0, KB200AR0,
KC040AR0, KC042AR0, KC045AR0, KC047AR0, KC050AR0, KC055AR0, KC060AR0, KC065AR0, KC070AR0, KC075AR0, KC080AR0, KC090AR0, KC100AR0, KC110AR0, KC120AR0, KC140AR0, KC160AR0, KC180AR0, KC200AR0,
KD040AR0, KD042AR0, KD045AR0, KD047AR0, KD050AR0, KD055AR0, KD060AR0, KD065AR0, KD070AR0, KD075AR0, KD080AR0, KD090AR0, KD100AR0, KD110AR0, KD120AR0, KD140AR0, KD160AR0, KD180AR0, KD200AR0,
KF040AR0, KF042AR0, KF045AR0, KF047AR0, KF050AR0, KF055AR0, KF060AR0,
KF065AR0, KF070AR0, KF075AR0, KF080AR0, KF090AR0, KF100AR0, KF110AR0, KF120AR0, KF140AR0, KF160AR0, KF180AR0, KF200AR0,
KG040AR0, KG042AR0, KG045AR0, KG047AR0, KG050AR0, KG055AR0, KG060AR0, KG065AR0, KG070AR0, KG075AR0, KG080AR0, KG090AR0, KG100AR0, KG110AR0, KG120AR0, KG140AR0, KG160AR0, KG180AR0, KG200AR0
/* 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
Contact Angle: | 60° |
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Aligning: | Non-Aligning Bearing |
Separated: | Unseparated |
Rows Number: | Single |
Load Direction: | Radial Bearing |
Material: | Bearing Steel |
Samples: |
US$ 50/Piece
1 Piece(Min.Order) | |
---|
Customization: |
Available
| Customized Request |
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Are there specific industries or applications where rolling contact bearings are frequently used?
Rolling contact bearings find extensive use in various industries and applications due to their versatility, load-carrying capacity, and efficiency. Here’s a detailed explanation of some specific industries and applications where rolling contact bearings are frequently employed:
- Automotive Industry:
The automotive industry extensively utilizes rolling contact bearings in various components and systems. These bearings are found in engines, transmissions, wheel hubs, suspension systems, steering columns, and different drivetrain components. In the automotive sector, rolling contact bearings provide reliable support for rotating shafts, facilitate smooth wheel rotation, and contribute to overall vehicle performance and safety.
- Aerospace Industry:
Rolling contact bearings play a critical role in the aerospace industry, where they are used in aircraft engines, landing gear systems, control surfaces, and various other applications. These bearings provide reliable and precise rotation in demanding aerospace environments, contributing to the safety, efficiency, and performance of aircraft.
- Industrial Machinery:
Rolling contact bearings are widely employed in a broad range of industrial machinery. They are found in machine tools, industrial pumps, compressors, conveyors, printing machines, textile machinery, and many other equipment types. These bearings support the rotating components of machinery, enabling smooth and efficient operation while withstanding heavy loads and high speeds.
- Power Generation:
In the power generation sector, rolling contact bearings are utilized in turbines, generators, wind turbines, and other power generation equipment. These bearings withstand the rotational forces and high temperatures associated with power generation, contributing to the efficient conversion of mechanical energy into electrical energy.
- Mining and Construction:
Rolling contact bearings are widely used in mining and construction equipment, such as crushers, conveyors, excavators, and bulldozers. These bearings are designed to handle heavy loads, shock loads, and harsh operating conditions commonly encountered in mining and construction applications.
- Railway Industry:
In the railway industry, rolling contact bearings are utilized in locomotives, passenger trains, freight cars, and rail infrastructure. These bearings support the axles, wheels, and other rotating components of railway systems, ensuring smooth and reliable operation while withstanding the dynamic forces and heavy loads associated with rail transportation.
- Wind Energy:
The wind energy sector relies on rolling contact bearings in wind turbines. These bearings support the rotor shaft, allowing efficient rotation of the turbine blades to convert wind energy into electrical power. Rolling contact bearings in wind turbines are subjected to high axial and radial loads, as well as challenging environmental conditions.
These are just a few examples of the industries and applications where rolling contact bearings are frequently used. They are also employed in countless other sectors, including marine, agriculture, medical equipment, robotics, and more. The versatility and effectiveness of rolling contact bearings make them an essential component in a wide range of machinery and equipment across various industries.
What are the eco-friendly or sustainable aspects of rolling contact bearing materials?
Rolling contact bearing materials can contribute to eco-friendliness and sustainability in several ways. Here’s a detailed explanation of the eco-friendly and sustainable aspects of rolling contact bearing materials:
- Recyclability:
Many rolling contact bearing materials, such as steel and certain types of alloys, are highly recyclable. At the end of their service life, bearings can be dismantled, and the materials can be recycled or reused. Recycling bearings helps reduce the demand for raw materials, conserves energy, and minimizes waste generation. By promoting a circular economy, the recyclability of bearing materials contributes to resource conservation and waste reduction.
- Energy Efficiency:
Rolling contact bearings play a crucial role in improving energy efficiency in various applications. By reducing friction and minimizing power losses, bearings help optimize the performance of machinery and equipment. When machines operate more efficiently, they consume less energy, leading to reduced greenhouse gas emissions and lower carbon footprints. The use of high-quality bearing materials, coatings, and lubricants further enhances energy efficiency by minimizing frictional losses.
- Long Service Life:
Rolling contact bearings are designed to have long service lives under normal operating conditions. Their ability to withstand heavy loads, resist wear, and operate reliably contributes to extended equipment lifetimes. By reducing the frequency of bearing replacements, industries can minimize material consumption, waste generation, and environmental impact associated with manufacturing and disposal processes. The longer service life of rolling contact bearings promotes sustainability by reducing resource consumption and improving equipment lifecycle management.
- Reduced Maintenance:
The use of high-quality rolling contact bearing materials can contribute to reduced maintenance requirements. Bearings that are resistant to wear, corrosion, and fatigue offer longer maintenance intervals, reducing the need for frequent inspections, replacements, and repairs. This not only saves time and labor but also reduces the consumption of maintenance-related resources such as lubricants and spare parts. The reduced maintenance needs of rolling contact bearings contribute to sustainable operations by optimizing resource utilization and minimizing maintenance-related waste.
- Environmental Compliance:
Rolling contact bearing materials are subject to various environmental regulations and standards. Manufacturers strive to comply with these regulations by ensuring that their materials are free from hazardous substances or restricted substances. Compliance with regulations such as the Restriction of Hazardous Substances (RoHS) directive helps prevent the use of environmentally harmful materials, reducing the potential environmental impact during the manufacturing, use, and disposal stages of rolling contact bearings.
Overall, rolling contact bearing materials offer several eco-friendly and sustainable aspects, including recyclability, energy efficiency, long service life, reduced maintenance requirements, and compliance with environmental regulations. These aspects contribute to resource conservation, waste reduction, energy savings, and minimized environmental impact throughout the lifecycle of rolling contact bearings.
How do rolling contact bearings contribute to reduced friction and improved efficiency in machinery?
Rolling contact bearings play a crucial role in reducing friction and improving the efficiency of machinery. They achieve this through several design features and operating characteristics. Here’s a detailed explanation of how rolling contact bearings contribute to reduced friction and improved efficiency:
- Rolling Motion:
Unlike sliding contact bearings, which rely on sliding friction between surfaces, rolling contact bearings utilize rolling motion between the rolling elements (balls or rollers) and the raceways. This rolling motion significantly reduces friction compared to sliding friction, resulting in lower energy losses and improved efficiency. The rolling contact between the elements and the raceways minimizes surface contact and allows smooth rotation with reduced frictional resistance.
- Lubrication:
Rolling contact bearings are typically lubricated with oils or greases to further reduce friction and wear. Lubricants form a thin film between the rolling elements and the raceways, providing a protective layer that separates the surfaces and minimizes direct metal-to-metal contact. This lubricating film reduces friction and dissipates heat generated during operation, contributing to smoother rotation and improved efficiency.
- Reduced Sliding Friction:
As mentioned earlier, rolling contact bearings rely on rolling motion rather than sliding friction. This design characteristic reduces the occurrence of sliding friction between the bearing components, resulting in lower frictional forces and decreased energy losses. The reduced sliding friction contributes to improved efficiency and can translate into energy savings in various machinery applications.
- Load Distribution:
Rolling contact bearings distribute loads more evenly compared to sliding contact bearings. The rolling elements in a bearing share the load and distribute it over a larger contact area, reducing localized stress and minimizing friction. This load distribution characteristic helps prevent excessive wear and prolongs the service life of the bearing. By maintaining efficient load distribution, rolling contact bearings contribute to improved efficiency and reliability in machinery.
- High-Speed Capability:
Rolling contact bearings are well-suited for high-speed applications due to their low friction characteristics. The rolling motion and reduced sliding friction allow these bearings to rotate at higher speeds with minimal heat generation. This high-speed capability is essential for various machinery, such as electric motors, machine tools, and automotive components, where efficient power transmission and rotational precision are critical for optimal performance and efficiency.
In summary, rolling contact bearings contribute to reduced friction and improved efficiency in machinery through their rolling motion, effective lubrication, reduced sliding friction, even load distribution, and high-speed capability. These design features and operating characteristics minimize energy losses, reduce wear, and enhance the overall performance and reliability of machinery in a wide range of industries.
editor by CX 2024-04-25
China manufacturer Kg400xpo Chrome Steel CZPT Catalog Ultra Reali Slim Wall Roller Silverthin Ball Tapered Thrust Angular Contact Metric Sleeve Thin Bearing bearing block
Product Description
JA035CP0 Thin Section sealed Ball Bearing with a 1/4″ cross section width, JA035CP0 bearing is a popular item that could be used in many applications, the dimensions are 3 1/2″ x 4″ x 1/4″ inch, JA035CP0 bearing has Brass balls retainer, JA035CP0 bearing is oil preserved.Item: JA035CP0 Ball BearingType: Deep groove Radial Ball BearingMaterial: Chrome SteelBrand: Cage: BrassClosures: OpenDimensions: 3 1/2″ x 4″ x 1/4″ inchID (inner diameter)/Bore: 3 1/2″ inchOD (outer diameter): 4″ inchWidth/Height/thickness: 1/4″ inchSize: 3.5″ x 4″ x 0.25″Cross Section: 1/4″ inchDynamic load rating: 2095 NStatic load rating: 5836 NQuantity: One BearingKAA opening type 4.762mm(CP0/XP0/AR0
KAA571,KAA015,KAA017
KA opening type 6.35mm(CP0/XP0/AR0
KA571,KA571,KA030,KA035,KA040,KA042,
KA045,KA050,KA055,KA060,KA065,KA070,
KA075,KA080,KA090,KA100,KA110,KA120,
KA140,KA180,KA200
KB opening type 7.938mm(CP0/XP0/AR0
KB571,KB571,KB030,KB035,KB040,KB042,
KB045,KB050,KB055,KB060,KB065,KB070,
KB075,KB080,KB090,KB100,KB110,KB120,
KB140,KB180,KB200
KC opening 9.525mm(CP0/XP0/AR0
KC040,KC042,KC045,KC050,KC055,KC060,
KC065,KC070,KC075,KC080,KC090,KC100,
KC110,KC120,KC140,KC180,KC200
KD opening type 12.7mm(CP0/XP0/AR0
KD040,KD042,KD045,KD050,KD055,KD060,
KD065,KD070,KD075,KD080,KD090,KD100,
KD110,KD120,KD140,KD180,KD200
KF opening type 19.05mm(CP0/XP0/AR0
KF040,KF042,KF045,KF050,KF055,KF060,
KF065,KF070,KF075,KF080,KF090,KF100,
KF110,KF120,KF140,KF180,KF200
KG open 25.4mm(CP0/XP0/AR0
KG040,KG042,KG045,KG050,KG055,
KG060,KG065,KG070,KG075,KG080,
KG090,KG100,KG110,KG120,KG140,
KG180,KG200,KG250,KG300,KG400
JA seals 6.35mm(CP0/XP0/A
JHA571,JHA015,JA571,JA571,JA030,JA035,
JA040,JA042,JA045,JA050,JA055,JA060,JA065
JB seals 7.938mm(CP0/XP0/AR
JB571,JB571,JB030,JB035,JB040,JB042,
JB045,JB050,JB055,JB060,JB065
JU seals 12.7mm(CP0/XP0/AR
JU040,JU042,JU045,JU050,JU055,JU060,
JU065,JU070,JU075,JU080,JU090,JU100,
JU110,JU120
JG seals 25.4mm(CP0/XP0/AR0
JG120,JG140,JG160,JG180
5mm-360mm is 8mm,13mm,20mm
thick 8mm (CP0/XP0/
K57108,K05008,K06008,K07008,K08008,K09008,K10008,K11008,
K12008,K13008,K14008,K15008,K16008,K17008,K1K20008,K25008,K30008,K32008,K34008,K36 thick 13mm open (CP0/XP0/
K57113,K05013,K06013,K 0571 3,K08013,K 0571 3,K10013,K11013,
K12013,K13013,K14013,K15013,K16013,K17013,K18013,K19013,
K20013,K25013,K30013,K32013,K34013,K36013
T20mm(CP0/XP0/
K571hinck 20,K 0571 1,K06571,K5711,K 0571 1,K09571,K1571,K11571,
K12571,K13571,K14571,K15571,K16571,K17571,K18571,K19571,
K2571,K25571,K3571,K32571,K34571,K36571
thick 8mm Seals (CP0/XP0/ARO
J57108,J05008,J06008,J07008,J08008,J09008,J10008,J11008,
J12008,J13008,J14008,J15008,J16008,J1700
/* 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: | P0.P6.P5 |
---|---|
Cage Material: | Brass.Nylon Plastic Full Ball |
Outer Ring: | Chrome Steel |
Inner Ring: | Gcr15 |
Weight: | 13.971kg |
Contact Angle: | 25° |
What Factors should be Considered when Selecting a Tapered Roller Bearing for a Specific Application?
Choosing the right tapered roller bearing for a specific application involves considering various factors to ensure optimal performance and reliability. Here are the key factors to consider:
- Load Requirements:
Assess the types and magnitudes of both radial and axial loads the bearing will experience. Choose a tapered roller bearing with a load capacity that comfortably exceeds the expected loads to prevent premature wear or failure.
- Speed:
Determine the required rotational speed of the bearing. High-speed applications may require bearings designed for reduced friction and heat generation to maintain efficiency and avoid overheating.
- Precision and Tolerance:
Consider the level of precision required for the application. Tapered roller bearings are available in different precision classes, such as ABEC (Annular Bearing Engineering Committee) grades, which impact factors like smoothness and accuracy of rotation.
- Mounting and Installation:
Assess the available space for mounting the bearing and consider the ease of installation. Bearings with adjustable clearance or preload might be advantageous for fine-tuning the bearing’s internal play.
- Temperature and Environment:
Take into account the operating temperature range and environmental conditions of the application. Extreme temperatures or corrosive environments may require specific bearing materials or coatings.
- Lubrication:
Choose an appropriate lubricant based on the application’s speed, temperature, and load conditions. Proper lubrication ensures smooth operation, reduces friction, and prolongs the bearing’s lifespan.
- Cost and Budget:
Consider the budget allocated for bearings. High-precision or specialized bearings may come at a higher cost, but their performance benefits can outweigh the initial investment over the bearing’s service life.
- Application Type:
Identify the specific industry and application in which the bearing will be used. Tapered roller bearings are employed in various sectors, including automotive, heavy machinery, aerospace, and more.
- Expected Lifespan:
Estimate the required bearing lifespan for the application. Factors such as load, speed, and maintenance practices can impact the bearing’s longevity.
- Bearing Size and Design:
Choose a bearing size that fits within the application’s space constraints while providing the necessary load capacity. The design, including the number and arrangement of rollers, can influence load distribution and performance.
- Maintenance Requirements:
Consider the maintenance schedule and accessibility for bearing inspection and replacement. Bearings in applications with limited maintenance intervals may require enhanced durability.
In conclusion, selecting a tapered roller bearing for a specific application involves assessing load requirements, speed, precision, mounting, temperature, lubrication, cost, application type, expected lifespan, bearing size, and maintenance considerations. Careful evaluation of these factors ensures that the chosen bearing meets the demands of the application while providing reliable performance and longevity.
What are Tapered Roller Bearings and How do They Function in Machinery?
Tapered roller bearings are a type of rolling element bearing designed to handle both radial and axial loads by providing a conical geometry. They consist of inner and outer rings, tapered rollers, and a cage that holds the rollers in place. Tapered roller bearings are commonly used in various machinery and equipment for their ability to support high radial and axial loads simultaneously. Here’s how they function in machinery:
- Geometry:
Tapered roller bearings have an inner ring with a conical surface and an outer ring with a matching conical surface. The rollers are also shaped like truncated cones. This geometry allows the rollers to make contact with both the inner and outer raceways at a common point on the bearing axis, distributing loads more effectively.
- Load Distribution:
The conical shape of tapered rollers enables them to handle both radial and axial loads. Radial loads are supported by the larger diameter of the rollers near the large end of the cone, while axial loads are absorbed by the smaller diameter near the small end of the cone.
- Adjustable Clearance:
Tapered roller bearings often allow for adjustable clearance or preload. This feature permits fine-tuning of the bearing’s internal play to optimize performance, reduce friction, and prevent excessive wear.
- Thrust Capability:
Tapered roller bearings can handle thrust (axial) loads in one direction, making them suitable for applications where axial loads need to be managed along with radial loads.
- Applications:
Tapered roller bearings are commonly used in various machinery and equipment:
- Automotive Industry:
Tapered roller bearings are widely used in wheel hubs, transmissions, and differential systems in automobiles, where they handle radial and axial loads experienced during driving.
- Heavy Machinery:
In construction equipment, mining machinery, and industrial machinery, tapered roller bearings support heavy loads and shocks, making them suitable for applications like earthmoving and material handling.
- Aerospace:
Tapered roller bearings are used in aircraft landing gear, where they support both vertical and horizontal loads during takeoff, landing, and taxiing.
- Railways:
In trains, tapered roller bearings are used in wheelsets and axles to manage radial and axial loads that occur as the train moves along curves and straight tracks.
- Wind Energy:
Tapered roller bearings are employed in wind turbine gearboxes, where they handle the radial and axial loads associated with converting wind energy into electrical power.
- Installation:
Installation of tapered roller bearings often involves adjusting the internal clearance or preload to optimize performance. Proper lubrication is crucial to ensure smooth operation and longevity.
In summary, tapered roller bearings function by utilizing their conical geometry to support both radial and axial loads, making them versatile components in a wide range of machinery and equipment across various industries.
Can you Explain the Design and Construction of Tapered Roller Bearings?
The design and construction of tapered roller bearings are characterized by their conical geometry and specific components that enable them to handle radial and axial loads simultaneously. Here’s an overview of their design and construction:
- Components:
Tapered roller bearings consist of the following components:
- Inner Ring:
The inner ring has a conical raceway on its inner surface, which matches the conical shape of the rollers. It serves as the raceway for the rollers and provides support to the rotating assembly.
- Outer Ring:
The outer ring also features a conical raceway on its inner surface that complements the shape of the rollers. The outer ring provides a rigid structure to house the entire bearing assembly.
- Tapered Rollers:
The rollers have a conical shape with varying diameters along their length. This design allows the rollers to make point contact with the inner and outer raceways, distributing loads efficiently.
- Cage:
The cage or retainer holds the rollers in position, maintaining proper spacing and preventing them from coming into contact with each other. The cage material can vary, and its design may affect factors like friction and heat generation.
- Conical Geometry:
The distinguishing feature of tapered roller bearings is their conical geometry. The conical angle is defined by the contact angle between the roller axis and the bearing axis. This angle facilitates effective load distribution and axial load support.
- Load Distribution:
The conical shape of the rollers and raceways allows tapered roller bearings to handle both radial and axial loads. Radial loads are primarily supported by the larger diameter of the rollers at the large end of the cone, while axial loads are absorbed by the smaller diameter near the small end of the cone.
- Adjustable Clearance and Preload:
Many tapered roller bearings allow for adjustable internal clearance or preload. This feature enables fine-tuning of the bearing’s internal play, optimizing performance and minimizing friction.
- Thrust Capability:
Tapered roller bearings can handle thrust (axial) loads in one direction, making them suitable for applications where axial loads need to be managed along with radial loads.
- Applications:
Tapered roller bearings find applications in various industries, including automotive, heavy machinery, aerospace, and more. They are used in scenarios that require efficient load distribution and handling of combined loads.
In summary, tapered roller bearings are designed with conical geometry to accommodate both radial and axial loads. Their specific components, such as tapered rollers and a cage, work together to ensure effective load distribution, making them suitable for a wide range of industrial applications.
editor by CX 2024-04-17
China supplier Deep Groove/Angular Contact/Thrust/Self-Aligning/Thin Wall Ball Bearing supplier
Product Description
Self aligning ball bearings mainly bear radial loads and can also withstand small axial loads. The axial displacement of the
shaft (shell) is limited within the clearance limit, with automatic centering performance, allowing normal operation under
conditions of relatively small internal and external inclination. It is suitable for components where the support seat hole cannot
strictly guarantee coaxiality. Self aligning ball bearings are suitable for bearing heavy and impact loads, precision instruments,
low noise motors, automobiles, motorcycles, metallurgy, rolling mills, mines, petroleum, papermaking, cement, sugar squeezing
and other industries, as well as general machinery.
Type |
BALL |
Structure |
Self-Aligning |
Applicable Industries |
Food Shop, Energy & Mining, Food & Beverage Shops, Advertising Company |
Precision Rating |
P0 P6 P5 P4 P2 |
Seals Type |
OPEN OR SEAL |
Number of Row |
Double row |
Product name |
Self-aligning Roller Bearing |
Our business:Produce and customize various bearing brands. (Packaging and logo can be customized. All copyright belongs to the customer. We promise not to disclose any information.)
Self-aligning ball bearings | 1200series | 1226 |
1300series | ||
2200series | ||
2300series |
Our Factory
/* 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
Product Name: | Self-Aligning Ball Bearing |
---|---|
Material: | Bearing Steel |
Cage Material: | Steel /Copper /Nylon Cage |
Seal Type: | Open |
Weight: | 0.26kg |
Aligning: | Aligning Bearing |
Samples: |
US$ 10/Piece
1 Piece(Min.Order) | |
---|
Customization: |
Available
| Customized Request |
---|
What are Tapered Roller Bearings and How do They Function in Machinery?
Tapered roller bearings are a type of rolling element bearing designed to handle both radial and axial loads by providing a conical geometry. They consist of inner and outer rings, tapered rollers, and a cage that holds the rollers in place. Tapered roller bearings are commonly used in various machinery and equipment for their ability to support high radial and axial loads simultaneously. Here’s how they function in machinery:
- Geometry:
Tapered roller bearings have an inner ring with a conical surface and an outer ring with a matching conical surface. The rollers are also shaped like truncated cones. This geometry allows the rollers to make contact with both the inner and outer raceways at a common point on the bearing axis, distributing loads more effectively.
- Load Distribution:
The conical shape of tapered rollers enables them to handle both radial and axial loads. Radial loads are supported by the larger diameter of the rollers near the large end of the cone, while axial loads are absorbed by the smaller diameter near the small end of the cone.
- Adjustable Clearance:
Tapered roller bearings often allow for adjustable clearance or preload. This feature permits fine-tuning of the bearing’s internal play to optimize performance, reduce friction, and prevent excessive wear.
- Thrust Capability:
Tapered roller bearings can handle thrust (axial) loads in one direction, making them suitable for applications where axial loads need to be managed along with radial loads.
- Applications:
Tapered roller bearings are commonly used in various machinery and equipment:
- Automotive Industry:
Tapered roller bearings are widely used in wheel hubs, transmissions, and differential systems in automobiles, where they handle radial and axial loads experienced during driving.
- Heavy Machinery:
In construction equipment, mining machinery, and industrial machinery, tapered roller bearings support heavy loads and shocks, making them suitable for applications like earthmoving and material handling.
- Aerospace:
Tapered roller bearings are used in aircraft landing gear, where they support both vertical and horizontal loads during takeoff, landing, and taxiing.
- Railways:
In trains, tapered roller bearings are used in wheelsets and axles to manage radial and axial loads that occur as the train moves along curves and straight tracks.
- Wind Energy:
Tapered roller bearings are employed in wind turbine gearboxes, where they handle the radial and axial loads associated with converting wind energy into electrical power.
- Installation:
Installation of tapered roller bearings often involves adjusting the internal clearance or preload to optimize performance. Proper lubrication is crucial to ensure smooth operation and longevity.
In summary, tapered roller bearings function by utilizing their conical geometry to support both radial and axial loads, making them versatile components in a wide range of machinery and equipment across various industries.
What Factors should be Considered when Selecting a Tapered Roller Bearing for a Specific Application?
Choosing the right tapered roller bearing for a specific application involves considering various factors to ensure optimal performance and reliability. Here are the key factors to consider:
- Load Requirements:
Assess the types and magnitudes of both radial and axial loads the bearing will experience. Choose a tapered roller bearing with a load capacity that comfortably exceeds the expected loads to prevent premature wear or failure.
- Speed:
Determine the required rotational speed of the bearing. High-speed applications may require bearings designed for reduced friction and heat generation to maintain efficiency and avoid overheating.
- Precision and Tolerance:
Consider the level of precision required for the application. Tapered roller bearings are available in different precision classes, such as ABEC (Annular Bearing Engineering Committee) grades, which impact factors like smoothness and accuracy of rotation.
- Mounting and Installation:
Assess the available space for mounting the bearing and consider the ease of installation. Bearings with adjustable clearance or preload might be advantageous for fine-tuning the bearing’s internal play.
- Temperature and Environment:
Take into account the operating temperature range and environmental conditions of the application. Extreme temperatures or corrosive environments may require specific bearing materials or coatings.
- Lubrication:
Choose an appropriate lubricant based on the application’s speed, temperature, and load conditions. Proper lubrication ensures smooth operation, reduces friction, and prolongs the bearing’s lifespan.
- Cost and Budget:
Consider the budget allocated for bearings. High-precision or specialized bearings may come at a higher cost, but their performance benefits can outweigh the initial investment over the bearing’s service life.
- Application Type:
Identify the specific industry and application in which the bearing will be used. Tapered roller bearings are employed in various sectors, including automotive, heavy machinery, aerospace, and more.
- Expected Lifespan:
Estimate the required bearing lifespan for the application. Factors such as load, speed, and maintenance practices can impact the bearing’s longevity.
- Bearing Size and Design:
Choose a bearing size that fits within the application’s space constraints while providing the necessary load capacity. The design, including the number and arrangement of rollers, can influence load distribution and performance.
- Maintenance Requirements:
Consider the maintenance schedule and accessibility for bearing inspection and replacement. Bearings in applications with limited maintenance intervals may require enhanced durability.
In conclusion, selecting a tapered roller bearing for a specific application involves assessing load requirements, speed, precision, mounting, temperature, lubrication, cost, application type, expected lifespan, bearing size, and maintenance considerations. Careful evaluation of these factors ensures that the chosen bearing meets the demands of the application while providing reliable performance and longevity.
What are the Common Signs of Wear or Damage in Tapered Roller Bearings?
Identifying signs of wear or damage in tapered roller bearings is crucial for maintaining optimal performance and preventing costly failures. Here are the common signs to look for:
- Abnormal Noise:
Unusual noises, such as grinding, clicking, or rumbling sounds, may indicate damage within the bearing. These noises could result from worn rollers, raceways, or insufficient lubrication.
- Vibration:
Excessive vibration or unusual vibrations not typically present during operation may indicate an issue with the bearing. Vibration can result from misalignment, worn components, or uneven loading.
- Increased Operating Temperature:
If the bearing becomes excessively hot during operation, it could indicate inadequate lubrication, excessive friction, or other issues. Monitoring temperature changes can help identify potential problems.
- Irregular Rotation:
If the bearing experiences irregular rotation, such as sticking or rough movement, it could be due to damaged rollers, misalignment, or improper preload.
- Visible Wear:
Inspect the bearing for visible signs of wear or damage, such as pitting, scoring, discoloration, or deformation of the bearing components.
- Increased Noise or Vibration Under Load:
If the bearing makes more noise or vibrates noticeably when subjected to load, it could indicate that the bearing is unable to handle the applied load properly.
- Uneven Wear:
Uneven wear patterns on the rollers or raceways can suggest misalignment or inadequate lubrication, causing the bearing to experience uneven loading.
- Loss of Performance:
If the bearing’s performance decreases, such as reduced efficiency or increased friction, it may indicate wear, contamination, or other issues affecting the bearing’s operation.
- Looseness or Play:
If there’s excessive play or looseness in the bearing assembly, it could be a sign of worn components or inadequate preload, impacting the bearing’s stability and performance.
- Leaks or Contaminants:
Inspect for leaks of lubricant or the presence of contaminants around the bearing. Leaks can indicate seal damage, and contaminants can accelerate wear.
- Observable Damage to Components:
If any bearing components, such as rollers, cages, or raceways, appear visibly damaged or deformed, immediate attention is necessary to prevent further issues.
Regular inspection and maintenance are essential to catch these signs early and prevent further damage. Addressing wear or damage promptly can extend the bearing’s lifespan and avoid costly downtime.
editor by CX 2024-04-10
China high quality Thin Section Ball Bearings for Glass Processing Machinery (KB160AR0 KB180AR0 KB200AR0) Thin Wall Bearing Angular Contact Slim Ball Bearing bearing engineering
Product Description
Open type angular contact ball thin section bearing
Model | Dimension | |||||
d | D | Width | L1 | L2 | L3 | |
inch | ||||||
KA571AR0 | 2 | 2.5 | 0.25 | 2.186 | 2.314 | 2.369 |
KA571AR0 | 2.5 | 3 | 0.25 | 2.686 | 2.814 | 2.869 |
KA030AR0 | 3 | 3.5 | 0.25 | 3.186 | 3.314 | 3.367 |
KA035AR0 | 3.5 | 4 | 0.25 | 3.686 | 3.814 | 3.867 |
KA040AR0 | 4 | 4.5 | 0.25 | 4.186 | 4.314 | 4.367 |
KA042AR0 | 4.25 | 4.75 | 0.25 | 4.436 | 4.564 | 4.615 |
KA045AR0 | 4.5 | 5 | 0.25 | 4.686 | 4.814 | 4.865 |
KA047AR0 | 4.75 | 5.25 | 0.25 | 4.936 | 5.064 | 5.115 |
KA050AR0 | 5 | 5.5 | 0.25 | 5.186 | 5.314 | 5.365 |
KA055AR0 | 5.5 | 6 | 0.25 | 5.686 | 5.814 | 5.863 |
KA060AR0 | 6 | 6.5 | 0.25 | 6.186 | 6.314 | 6.363 |
KA065AR0 | 6.5 | 7 | 0.25 | 6.686 | 6.814 | 6.861 |
KA070AR0 | 7 | 7.5 | 0.25 | 7.186 | 7.314 | 7.361 |
KA075AR0 | 7.5 | 8 | 0.25 | 7.686 | 7.814 | 7.861 |
KA080AR0 | 8 | 8.5 | 0.25 | 8.186 | 8.314 | 8.359 |
KA090AR0 | 9 | 9.5 | 0.25 | 9.186 | 9.314 | 9.357 |
KA100AR0 | 10 | 10.5 | 0.25 | 10.186 | 10.314 | 10.355 |
KA110AR0 | 11 | 11.5 | 0.25 | 11.186 | 11.314 | 11.353 |
KA120AR0 | 12 | 12.5 | 0.25 | 12.186 | 12.314 | 12.349 |
KB571AR0 | 2 | 2.625 | 0.3125 | 2.231 | 2.393 | 2.464 |
KB571AR0 | 2.5 | 3.125 | 0.3125 | 2.731 | 2.893 | 2.964 |
KB030AR0 | 3 | 3.625 | 0.3125 | 3.231 | 3.393 | 3.462 |
KB035AR0 | 3.5 | 4.125 | 0.3125 | 3.731 | 3.893 | 3.962 |
KB040AR0 | 4 | 4.625 | 0.3125 | 4.231 | 4.393 | 4.46 |
KB042AR0 | 4.25 | 4.875 | 0.3125 | 4.481 | 4.643 | 4.71 |
KB045AR0 | 4.5 | 5.125 | 0.3125 | 4.731 | 4.893 | 4.96 |
KB047AR0 | 4.75 | 5.375 | 0.3125 | 4.981 | 5.143 | 5.21 |
KB050AR0 | 5 | 5.625 | 0.3125 | 5.231 | 5.393 | 5.46 |
KB055AR0 | 5.5 | 6.125 | 0.3125 | 5.731 | 5.893 | 5.958 |
KB060AR0 | 6 | 6.625 | 0.3125 | 6.231 | 6.393 | 6.458 |
KB065AR0 | 6.5 | 7.125 | 0.3125 | 6.731 | 6.893 | 6.958 |
KB070AR0 | 7 | 7.625 | 0.3125 | 7.231 | 7.393 | 7.456 |
KB075AR0 | 7.5 | 8.125 | 0.3125 | 7.731 | 7.893 | 7.955 |
KB080AR0 | 8 | 8.625 | 0.3125 | 8.231 | 8.393 | 8.453 |
KB090AR0 | 9 | 9.625 | 0.3125 | 9.231 | 9.393 | 9.451 |
KB100AR0 | 10 | 10.625 | 0.3125 | 10.231 | 10.393 | 10.449 |
KB110AR0 | 11 | 11.625 | 0.3125 | 11.231 | 11.393 | 11.447 |
KB120AR0 | 12 | 12.625 | 0.3125 | 12.231 | 12.393 | 12.445 |
KB140AR0 | 14 | 14.625 | 0.3125 | 14.231 | 14.393 | 14.439 |
KB160AR0 | 16 | 16.625 | 0.3125 | 16.231 | 16.393 | 16.433 |
KB180AR0 | 18 | 18.625 | 0.3125 | 18.231 | 18.393 | 18.425 |
KB200AR0 | 20 | 20.625 | 0.3125 | 20.231 | 20.393 | 20.416 |
KC040AR0 | 4 | 4.75 | 0.375 | 4.277 | 4.473 | 4.554 |
KC042AR0 | 4.25 | 5 | 0.375 | 4.527 | 4.723 | 4.804 |
KC045AR0 | 4.5 | 5.25 | 0.375 | 4.777 | 4.973 | 5.052 |
KC047AR0 | 4.75 | 5 | 0.375 | 5.571 | 5.223 | 5.302 |
KC050AR0 | 5 | 5.75 | 0.375 | 5.277 | 5.473 | 5.552 |
KC055AR0 | 5.5 | 6.25 | 0.375 | 5.777 | 5.973 | 6.052 |
KC060AR0 | 6 | 6.75 | 0.375 | 6.277 | 6.473 | 6.55 |
KC065AR0 | 6.5 | 7.25 | 0.375 | 6.777 | 6.973 | 7.05 |
KC070AR0 | 7 | 7.75 | 0.375 | 7.277 | 7.473 | 7.55 |
KC075AR0 | 7.5 | 8.25 | 0.375 | 7.777 | 7.793 | 8.048 |
KC080AR0 | 8 | 8.75 | 0.375 | 8.277 | 8.473 | 8.548 |
KC090AR0 | 9 | 9.75 | 0.375 | 9.277 | 9.473 | 9.546 |
KC100AR0 | 10 | 10.75 | 0.375 | 10.277 | 10.473 | 10.544 |
KC110AR0 | 11 | 11.75 | 0.375 | 11.277 | 11.473 | 11.542 |
KC120AR0 | 12 | 12.75 | 0.375 | 12.277 | 12.473 | 12.54 |
KC140AR0 | 14 | 14.75 | 0.375 | 14.277 | 14.473 | 14.535 |
KC160AR0 | 16 | 16.75 | 0.375 | 16.277 | 16.473 | 16.529 |
KC180AR0 | 18 | 18.75 | 0.375 | 18.277 | 18.473 | 18.523 |
KC200AR0 | 20 | 20.75 | 0.375 | 20.277 | 20.473 | 20.517 |
Model | Dimension | |||||
d | D | Width | L1 | L2 | L3 | |
inch | ||||||
KD040AR0 | 4 | 5 | 0.5 | 4.37 | 4.63 | 4.741 |
KD042AR0 | 4.25 | 5.25 | 0.5 | 4.62 | 4.88 | 4.991 |
KD045AR0 | 4.5 | 5.5 | 0.5 | 4.87 | 5.13 | 5.241 |
KD047AR0 | 4.75 | 5.75 | 0.5 | 5.12 | 5.38 | 5.49 |
KD050AR0 | 5 | 6 | 0.5 | 5.37 | 5.63 | 5.74 |
KD055AR0 | 5.5 | 6.5 | 0.5 | 5.87 | 6.13 | 6.238 |
KD060AR0 | 6 | 7 | 0.5 | 6.37 | 6.63 | 6.738 |
KD065AR0 | 6.5 | 7.5 | 0.5 | 6.87 | 7.13 | 7.236 |
KD070AR0 | 7 | 8 | 0.5 | 7.37 | 7.63 | 7.736 |
KD075AR0 | 7.5 | 8.5 | 0.5 | 7.87 | 8.13 | 8.236 |
KD080AR0 | 8 | 9 | 0.5 | 8.37 | 8.63 | 8.734 |
KD090AR0 | 9 | 10 | 0.5 | 9.37 | 9.63 | 9.732 |
KD100AR0 | 10 | 11 | 0.5 | 10.37 | 10.63 | 10.732 |
KD110AR0 | 11 | 12 | 0.5 | 11.37 | 11.63 | 11.73 |
KD120AR0 | 12 | 13 | 0.5 | 12.37 | 12.63 | 12.728 |
KD140AR0 | 14 | 15 | 0.5 | 14.37 | 14.63 | 14.724 |
KD160AR0 | 16 | 17 | 0.5 | 16.37 | 16.63 | 16.718 |
KD180AR0 | 18 | 19 | 0.5 | 18.37 | 18.63 | 18.712 |
KD200AR0 | 20 | 21 | 0.5 | 20.37 | 20.63 | 20.705 |
KF040AR0 | 4 | 5.5 | 0.75 | 4.555 | 4.945 | 5.115 |
KF042AR0 | 4.25 | 5.75 | 0.75 | 4.805 | 5.195 | 5.365 |
KF045AR0 | 4.5 | 6 | 0.75 | 5.005 | 5.445 | 5.615 |
KF047AR0 | 4.75 | 6.25 | 0.75 | 5.305 | 5.695 | 5.865 |
KF050AR0 | 5 | 6.5 | 0.75 | 5.555 | 5.945 | 6.115 |
KF055AR0 | 5.5 | 7 | 0.75 | 6.005 | 6.445 | 6.613 |
KF060AR0 | 6 | 7.5 | 0.75 | 6.555 | 6.945 | 7.113 |
KF065AR0 | 6.5 | 8 | 0.75 | 7.055 | 7.445 | 7.613 |
KF070AR0 | 7 | 8.5 | 0.75 | 7.555 | 7.845 | 8.113 |
KF075AR0 | 7.5 | 9 | 0.75 | 8.055 | 8.445 | 8.61 |
KF080AR0 | 8 | 9.5 | 0.75 | 8.555 | 8.945 | 9.11 |
KF090AR0 | 9 | 10.5 | 0.75 | 9.555 | 9.945 | 10.108 |
KF100AR0 | 10 | 11.5 | 0.75 | 10.555 | 10.945 | 11.106 |
KF110AR0 | 11 | 12.5 | 0.75 | 11.555 | 11.945 | 12.106 |
KF120AR0 | 12 | 13.5 | 0.75 | 12.555 | 12.945 | 13.104 |
KF140AR0 | 14 | 15.5 | 0.75 | 14.555 | 14.945 | 15.102 |
KF160AR0 | 16 | 17.5 | 0.75 | 16.555 | 16.945 | 17.098 |
KF180AR0 | 18 | 19.5 | 0.75 | 18.555 | 18.945 | 19.096 |
KF200AR0 | 20 | 21.5 | 0.75 | 20.555 | 20.945 | 21.092 |
KG040AR0 | 4 | 6 | 1 | 4.742 | 5.258 | 5.491 |
KG042AR0 | 4.25 | 6.25 | 1 | 4.992 | 5.508 | 5.741 |
KG045AR0 | 4.5 | 6.5 | 1 | 5.242 | 5.758 | 5.989 |
KG047AR0 | 4.75 | 6.75 | 1 | 5.492 | 6.008 | 6.239 |
KG050AR0 | 5 | 7 | 1 | 5.472 | 6.258 | 6.489 |
KG055AR0 | 5.5 | 7.5 | 1 | 6.242 | 6.758 | 6.989 |
KG060AR0 | 6 | 8 | 1 | 6.742 | 7.258 | 7.489 |
KG065AR0 | 6.5 | 8.5 | 1 | 7.242 | 7.758 | 7.987 |
KG070AR0 | 7 | 9 | 1 | 7.742 | 8.258 | 8.487 |
KG075AR0 | 7.5 | 9.5 | 1 | 8.242 | 8.758 | 8.987 |
KG080AR0 | 8 | 10 | 1 | 8.742 | 9.258 | 9.485 |
KG090AR0 | 9 | 11 | 1 | 9.742 | 10.258 | 10.485 |
KG100AR0 | 10 | 12 | 1 | 10.742 | 11.258 | 11.483 |
KG110AR0 | 11 | 13 | 1 | 11.742 | 12.258 | 12.481 |
KG120AR0 | 12 | 14 | 1 | 12.742 | 13.258 | 13.481 |
KG140AR0 | 14 | 15 | 1 | 14.742 | 15.258 | 15.478 |
KG160AR0 | 16 | 18 | 1 | 16.742 | 17.258 | 17.474 |
KG180AR0 | 18 | 20 | 1 | 18.742 | 19.258 | 19.472 |
KG200AR0 | 20 | 22 | 1 | 20.742 | 21.258 | 21.468 |
Thin Section Ball Bearing, is also call thin wall bearings, slim ball bearings, were developed for applications where space limitations are of the utmost importance. As the name implies, the difference between the inside and outside diameters of the rings has been minimized or thinned out. Of course this comes at a price by compromising load capacities. However, these bearings can still accommodate a relatively light radial thrust or combined loads.
LYHY is a professional manufacturer of all kinds of ball bearings, roller bearing, and precision bearing since 1993. Our bearings products and design solutions will enhance your product performance; Make your company more competitive, and make your job easier.
Material
Bearing steel Gcr15 or stainless steel
Structure
Open type deep groove ball bearing
Open type angular contact bearing
Open type 4 point contact bearing
Sealed type deep groove ball bearing
Sealed 4 point contact ball bearing
Feature
1. Compact structure, light weight, low vibration and friction
2. High precision,
3. Space and cost saving
4. Best quality, long life
Application
Aviation, astronomical instruments, glass manufacturing machinery, medical instrument, optical and scHangZhou instrument, satellite communication devices, textile machinery, large welding equipment, robot, semiconductor manufacturing equipment etc. Print machinery.
Open type angular contact ball bearing
KA571AR0, KA571AR0, KA030AR0, KA035AR0, KA040AR0, KA042AR0, KA045AR0, KA047AR0, KA050AR0, KA055AR0, KA060AR0, KA065AR0, KA070AR0, KA075AR0, KA080AR0, KA090AR0, KA100AR0, KA110AR0, KA120AR0,
KB571AR0, KB571AR0, KB030AR0, KB035AR0, KB040AR0, KB042AR0, KB045AR0, KB047AR0, KB050AR0, KB055AR0, KB060AR0, KB065AR0, KB070AR0, KB075AR0, KB080AR0, KB090AR0, KB100AR0, KB110AR0, KB120AR0, KB140AR0, KB160AR0, KB180AR0, KB200AR0,
KC040AR0, KC042AR0, KC045AR0, KC047AR0, KC050AR0, KC055AR0, KC060AR0, KC065AR0, KC070AR0, KC075AR0, KC080AR0, KC090AR0, KC100AR0, KC110AR0, KC120AR0, KC140AR0, KC160AR0, KC180AR0, KC200AR0,
KD040AR0, KD042AR0, KD045AR0, KD047AR0, KD050AR0, KD055AR0, KD060AR0, KD065AR0, KD070AR0, KD075AR0, KD080AR0, KD090AR0, KD100AR0, KD110AR0, KD120AR0, KD140AR0, KD160AR0, KD180AR0, KD200AR0,
KF040AR0, KF042AR0, KF045AR0, KF047AR0, KF050AR0, KF055AR0, KF060AR0,
KF065AR0, KF070AR0, KF075AR0, KF080AR0, KF090AR0, KF100AR0, KF110AR0, KF120AR0, KF140AR0, KF160AR0, KF180AR0, KF200AR0,
KG040AR0, KG042AR0, KG045AR0, KG047AR0, KG050AR0, KG055AR0, KG060AR0, KG065AR0, KG070AR0, KG075AR0, KG080AR0, KG090AR0, KG100AR0, KG110AR0, KG120AR0, KG140AR0, KG160AR0, KG180AR0, KG200AR0
/* 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(/(.*?):(.*)$/))&&1
Contact Angle: | 60° |
---|---|
Aligning: | Non-Aligning Bearing |
Separated: | Unseparated |
Rows Number: | Single |
Load Direction: | Radial Bearing |
Material: | Bearing Steel |
Samples: |
US$ 50/Piece
1 Piece(Min.Order) | |
---|
Customization: |
Available
| Customized Request |
---|
How does Proper Lubrication Impact the Performance and Longevity of Tapered Roller Bearings?
Proper lubrication is essential for ensuring optimal performance and longevity of tapered roller bearings. Lubrication plays a critical role in reducing friction, preventing wear, and managing heat generated during operation. Here’s how proper lubrication impacts tapered roller bearings:
- Reduced Friction:
Lubrication forms a thin film between the rolling elements and raceways, reducing direct metal-to-metal contact. This minimizes friction and the associated heat generation, allowing the bearing to operate smoothly and efficiently.
- Wear Prevention:
Lubrication forms a protective barrier that prevents wear and surface damage. Without proper lubrication, friction can lead to accelerated wear, pitting, and even surface scoring, shortening the bearing’s lifespan.
- Heat Dissipation:
Effective lubrication helps dissipate heat generated during operation. This is especially crucial in high-speed applications where excessive heat can lead to premature bearing failure or degradation of lubricant properties.
- Corrosion Protection:
Lubrication helps create a barrier that protects bearing surfaces from environmental factors that could lead to corrosion. This is particularly important in applications exposed to moisture, chemicals, or other corrosive agents.
- Noise and Vibration Reduction:
Proper lubrication can dampen vibrations and reduce noise by providing a cushioning effect between the rolling elements and raceways. This contributes to smoother and quieter operation.
- Longevity:
Well-lubricated bearings experience less wear and stress, leading to extended service life. Bearings that are inadequately lubricated or run dry are prone to premature failure due to excessive wear, heat buildup, and damage to bearing surfaces.
- Efficiency:
Adequate lubrication maintains the bearing’s efficiency by minimizing energy losses due to friction. Bearings that lack proper lubrication require more energy to overcome higher friction levels, resulting in reduced efficiency.
- Lubrication Methods:
Various lubrication methods are available, including grease lubrication and oil lubrication. The choice depends on factors such as speed, load, temperature, and application requirements.
To ensure proper lubrication:
- Follow Manufacturer Recommendations:
Consult the bearing manufacturer’s recommendations for lubricant type, viscosity, and replenishment intervals.
- Monitor and Maintain:
Regularly monitor the condition of the lubricant and the bearing’s performance. Implement a maintenance schedule for lubricant replacement or replenishment.
- Environmental Considerations:
Consider the operating environment’s temperature, contamination levels, and exposure to external elements. Some applications may require special lubricants for extreme conditions.
In summary, proper lubrication is crucial for maintaining tapered roller bearings’ performance, preventing wear, reducing friction and heat, and extending their lifespan. A well-lubricated bearing contributes to smoother operation, lower maintenance costs, and improved efficiency.
What are the Common Signs of Wear or Damage in Tapered Roller Bearings?
Identifying signs of wear or damage in tapered roller bearings is crucial for maintaining optimal performance and preventing costly failures. Here are the common signs to look for:
- Abnormal Noise:
Unusual noises, such as grinding, clicking, or rumbling sounds, may indicate damage within the bearing. These noises could result from worn rollers, raceways, or insufficient lubrication.
- Vibration:
Excessive vibration or unusual vibrations not typically present during operation may indicate an issue with the bearing. Vibration can result from misalignment, worn components, or uneven loading.
- Increased Operating Temperature:
If the bearing becomes excessively hot during operation, it could indicate inadequate lubrication, excessive friction, or other issues. Monitoring temperature changes can help identify potential problems.
- Irregular Rotation:
If the bearing experiences irregular rotation, such as sticking or rough movement, it could be due to damaged rollers, misalignment, or improper preload.
- Visible Wear:
Inspect the bearing for visible signs of wear or damage, such as pitting, scoring, discoloration, or deformation of the bearing components.
- Increased Noise or Vibration Under Load:
If the bearing makes more noise or vibrates noticeably when subjected to load, it could indicate that the bearing is unable to handle the applied load properly.
- Uneven Wear:
Uneven wear patterns on the rollers or raceways can suggest misalignment or inadequate lubrication, causing the bearing to experience uneven loading.
- Loss of Performance:
If the bearing’s performance decreases, such as reduced efficiency or increased friction, it may indicate wear, contamination, or other issues affecting the bearing’s operation.
- Looseness or Play:
If there’s excessive play or looseness in the bearing assembly, it could be a sign of worn components or inadequate preload, impacting the bearing’s stability and performance.
- Leaks or Contaminants:
Inspect for leaks of lubricant or the presence of contaminants around the bearing. Leaks can indicate seal damage, and contaminants can accelerate wear.
- Observable Damage to Components:
If any bearing components, such as rollers, cages, or raceways, appear visibly damaged or deformed, immediate attention is necessary to prevent further issues.
Regular inspection and maintenance are essential to catch these signs early and prevent further damage. Addressing wear or damage promptly can extend the bearing’s lifespan and avoid costly downtime.
Can you Explain the Design and Construction of Tapered Roller Bearings?
The design and construction of tapered roller bearings are characterized by their conical geometry and specific components that enable them to handle radial and axial loads simultaneously. Here’s an overview of their design and construction:
- Components:
Tapered roller bearings consist of the following components:
- Inner Ring:
The inner ring has a conical raceway on its inner surface, which matches the conical shape of the rollers. It serves as the raceway for the rollers and provides support to the rotating assembly.
- Outer Ring:
The outer ring also features a conical raceway on its inner surface that complements the shape of the rollers. The outer ring provides a rigid structure to house the entire bearing assembly.
- Tapered Rollers:
The rollers have a conical shape with varying diameters along their length. This design allows the rollers to make point contact with the inner and outer raceways, distributing loads efficiently.
- Cage:
The cage or retainer holds the rollers in position, maintaining proper spacing and preventing them from coming into contact with each other. The cage material can vary, and its design may affect factors like friction and heat generation.
- Conical Geometry:
The distinguishing feature of tapered roller bearings is their conical geometry. The conical angle is defined by the contact angle between the roller axis and the bearing axis. This angle facilitates effective load distribution and axial load support.
- Load Distribution:
The conical shape of the rollers and raceways allows tapered roller bearings to handle both radial and axial loads. Radial loads are primarily supported by the larger diameter of the rollers at the large end of the cone, while axial loads are absorbed by the smaller diameter near the small end of the cone.
- Adjustable Clearance and Preload:
Many tapered roller bearings allow for adjustable internal clearance or preload. This feature enables fine-tuning of the bearing’s internal play, optimizing performance and minimizing friction.
- Thrust Capability:
Tapered roller bearings can handle thrust (axial) loads in one direction, making them suitable for applications where axial loads need to be managed along with radial loads.
- Applications:
Tapered roller bearings find applications in various industries, including automotive, heavy machinery, aerospace, and more. They are used in scenarios that require efficient load distribution and handling of combined loads.
In summary, tapered roller bearings are designed with conical geometry to accommodate both radial and axial loads. Their specific components, such as tapered rollers and a cage, work together to ensure effective load distribution, making them suitable for a wide range of industrial applications.
editor by CX 2024-03-29
China best Sb075aro Chrome Steel CZPT Catalog Ultra Reali Slim Wall Roller Silverthin Ball Tapered Thrust Angular Contact Metric Sleeve Thin Section Bearings bearing driver
Product Description
KAA opening type 4.762mm(CP0/XP0/AR0
KAA571,KAA015,KAA017
KA opening type 6.35mm(CP0/XP0/AR0
KA571,KA571,KA030,KA035,KA040,KA042,
KA045,KA050,KA055,KA060,KA065,KA070,
KA075,KA080,KA090,KA100,KA110,KA120,
KA140,KA180,KA200
KB opening type 7.938mm(CP0/XP0/AR0
KB571,KB571,KB030,KB035,KB040,KB042,
KB045,KB050,KB055,KB060,KB065,KB070,
KB075,KB080,KB090,KB100,KB110,KB120,
KB140,KB180,KB200
KC opening 9.525mm(CP0/XP0/AR0
KC040,KC042,KC045,KC050,KC055,KC060,
KC065,KC070,KC075,KC080,KC090,KC100,
KC110,KC120,KC140,KC180,KC200
KD opening type 12.7mm(CP0/XP0/AR0
KD040,KD042,KD045,KD050,KD055,KD060,
KD065,KD070,KD075,KD080,KD090,KD100,
KD110,KD120,KD140,KD180,KD200
KF opening type 19.05mm(CP0/XP0/AR0
KF040,KF042,KF045,KF050,KF055,KF060,
KF065,KF070,KF075,KF080,KF090,KF100,
KF110,KF120,KF140,KF180,KF200
KG open 25.4mm(CP0/XP0/AR0
KG040,KG042,KG045,KG050,KG055,
KG060,KG065,KG070,KG075,KG080,
KG090,KG100,KG110,KG120,KG140,
KG180,KG200,KG250,KG300,KG400
JA seals 6.35mm(CP0/XP0/A
JHA571,JHA015,JA571,JA571,JA030,JA035,
JA040,JA042,JA045,JA050,JA055,JA060,JA065
JB seals 7.938mm(CP0/XP0/AR
JB571,JB571,JB030,JB035,JB040,JB042,
JB045,JB050,JB055,JB060,JB065
JU seals 12.7mm(CP0/XP0/AR
JU040,JU042,JU045,JU050,JU055,JU060,
JU065,JU070,JU075,JU080,JU090,JU100,
JU110,JU120
JG seals 25.4mm(CP0/XP0/AR0
JG120,JG140,JG160,JG180
5mm-360mm is 8mm,13mm,20mm
thick 8mm (CP0/XP0/
K57108,K05008,K06008,K07008,K08008,K09008,K10008,K11008,
K12008,K13008,K14008,K15008,K16008,K17008,K1K20008,K25008,K30008,K32008,K34008,K36 thick 13mm open (CP0/XP0/
K57113,K05013,K06013,K 0571 3,K08013,K 0571 3,K10013,K11013,
K12013,K13013,K14013,K15013,K16013,K17013,K18013,K19013,
K20013,K25013,K30013,K32013,K34013,K36013
T20mm(CP0/XP0/
K571hinck 20,K 0571 1,K06571,K5711,K 0571 1,K09571,K1571,K11571,
K12571,K13571,K14571,K15571,K16571,K17571,K18571,K19571,
K2571,K25571,K3571,K32571,K34571,K36571
thick 8mm Seals (CP0/XP0/ARO
J57108,J05008,J06008,J07008,J08008,J09008,J10008,J11008,
J12008,J13008,J14008,J15008,J16008,J1700
/* 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: | P0.P6.P5 |
---|---|
Cage Material: | Brass.Nylon Plastic Full Ball |
Outer Ring: | Chrome Steel |
Inner Ring: | Gcr15 |
Weight: | 0.154kg |
Structure: | Xpo Aro Cpo |
What Factors should be Considered when Selecting a Tapered Roller Bearing for a Specific Application?
Choosing the right tapered roller bearing for a specific application involves considering various factors to ensure optimal performance and reliability. Here are the key factors to consider:
- Load Requirements:
Assess the types and magnitudes of both radial and axial loads the bearing will experience. Choose a tapered roller bearing with a load capacity that comfortably exceeds the expected loads to prevent premature wear or failure.
- Speed:
Determine the required rotational speed of the bearing. High-speed applications may require bearings designed for reduced friction and heat generation to maintain efficiency and avoid overheating.
- Precision and Tolerance:
Consider the level of precision required for the application. Tapered roller bearings are available in different precision classes, such as ABEC (Annular Bearing Engineering Committee) grades, which impact factors like smoothness and accuracy of rotation.
- Mounting and Installation:
Assess the available space for mounting the bearing and consider the ease of installation. Bearings with adjustable clearance or preload might be advantageous for fine-tuning the bearing’s internal play.
- Temperature and Environment:
Take into account the operating temperature range and environmental conditions of the application. Extreme temperatures or corrosive environments may require specific bearing materials or coatings.
- Lubrication:
Choose an appropriate lubricant based on the application’s speed, temperature, and load conditions. Proper lubrication ensures smooth operation, reduces friction, and prolongs the bearing’s lifespan.
- Cost and Budget:
Consider the budget allocated for bearings. High-precision or specialized bearings may come at a higher cost, but their performance benefits can outweigh the initial investment over the bearing’s service life.
- Application Type:
Identify the specific industry and application in which the bearing will be used. Tapered roller bearings are employed in various sectors, including automotive, heavy machinery, aerospace, and more.
- Expected Lifespan:
Estimate the required bearing lifespan for the application. Factors such as load, speed, and maintenance practices can impact the bearing’s longevity.
- Bearing Size and Design:
Choose a bearing size that fits within the application’s space constraints while providing the necessary load capacity. The design, including the number and arrangement of rollers, can influence load distribution and performance.
- Maintenance Requirements:
Consider the maintenance schedule and accessibility for bearing inspection and replacement. Bearings in applications with limited maintenance intervals may require enhanced durability.
In conclusion, selecting a tapered roller bearing for a specific application involves assessing load requirements, speed, precision, mounting, temperature, lubrication, cost, application type, expected lifespan, bearing size, and maintenance considerations. Careful evaluation of these factors ensures that the chosen bearing meets the demands of the application while providing reliable performance and longevity.
How does Proper Lubrication Impact the Performance and Longevity of Tapered Roller Bearings?
Proper lubrication is essential for ensuring optimal performance and longevity of tapered roller bearings. Lubrication plays a critical role in reducing friction, preventing wear, and managing heat generated during operation. Here’s how proper lubrication impacts tapered roller bearings:
- Reduced Friction:
Lubrication forms a thin film between the rolling elements and raceways, reducing direct metal-to-metal contact. This minimizes friction and the associated heat generation, allowing the bearing to operate smoothly and efficiently.
- Wear Prevention:
Lubrication forms a protective barrier that prevents wear and surface damage. Without proper lubrication, friction can lead to accelerated wear, pitting, and even surface scoring, shortening the bearing’s lifespan.
- Heat Dissipation:
Effective lubrication helps dissipate heat generated during operation. This is especially crucial in high-speed applications where excessive heat can lead to premature bearing failure or degradation of lubricant properties.
- Corrosion Protection:
Lubrication helps create a barrier that protects bearing surfaces from environmental factors that could lead to corrosion. This is particularly important in applications exposed to moisture, chemicals, or other corrosive agents.
- Noise and Vibration Reduction:
Proper lubrication can dampen vibrations and reduce noise by providing a cushioning effect between the rolling elements and raceways. This contributes to smoother and quieter operation.
- Longevity:
Well-lubricated bearings experience less wear and stress, leading to extended service life. Bearings that are inadequately lubricated or run dry are prone to premature failure due to excessive wear, heat buildup, and damage to bearing surfaces.
- Efficiency:
Adequate lubrication maintains the bearing’s efficiency by minimizing energy losses due to friction. Bearings that lack proper lubrication require more energy to overcome higher friction levels, resulting in reduced efficiency.
- Lubrication Methods:
Various lubrication methods are available, including grease lubrication and oil lubrication. The choice depends on factors such as speed, load, temperature, and application requirements.
To ensure proper lubrication:
- Follow Manufacturer Recommendations:
Consult the bearing manufacturer’s recommendations for lubricant type, viscosity, and replenishment intervals.
- Monitor and Maintain:
Regularly monitor the condition of the lubricant and the bearing’s performance. Implement a maintenance schedule for lubricant replacement or replenishment.
- Environmental Considerations:
Consider the operating environment’s temperature, contamination levels, and exposure to external elements. Some applications may require special lubricants for extreme conditions.
In summary, proper lubrication is crucial for maintaining tapered roller bearings’ performance, preventing wear, reducing friction and heat, and extending their lifespan. A well-lubricated bearing contributes to smoother operation, lower maintenance costs, and improved efficiency.
What Advantages do Tapered Roller Bearings Offer Compared to Other Bearing Types?
Tapered roller bearings offer several advantages that make them a preferred choice in various applications compared to other bearing types. These advantages stem from their unique design and capabilities. Here’s a look at the benefits of tapered roller bearings:
- High Load-Carrying Capacity:
Tapered roller bearings can handle both radial and axial loads simultaneously, making them suitable for applications with combined loads. Their conical geometry allows for effective load distribution, enabling them to support heavy loads without premature wear.
- Efficient Axial Load Handling:
Tapered roller bearings excel at managing axial (thrust) loads in one direction. This capability is crucial in applications where axial loads are present, such as automotive transmissions or industrial machinery.
- Reduced Friction and Heat Generation:
The conical shape of the rollers and the matching raceways result in point contact, reducing friction and minimizing heat generation. This efficiency contributes to improved overall performance and energy savings.
- Adjustable Clearance and Preload:
Tapered roller bearings often allow for adjustable internal clearance or preload. This feature enables fine-tuning of the bearing’s play, optimizing performance and extending the bearing’s lifespan.
- High Precision:
Tapered roller bearings are available in various precision classes to meet different application requirements. Their precision makes them suitable for applications demanding accurate motion control and positioning.
- Versatility:
Tapered roller bearings are used in a wide range of industries and applications, from automotive and heavy machinery to aerospace and industrial equipment. Their ability to handle diverse loads and conditions contributes to their versatility.
- Durability:
Tapered roller bearings are designed to withstand shocks and impacts, making them suitable for applications with dynamic loads or vibrations. Their robust construction contributes to their overall durability.
- High-Speed Capability:
Tapered roller bearings can operate at high speeds due to their efficient contact geometry and reduced friction. This makes them suitable for applications requiring rapid rotation.
- Cost-Effectiveness:
While the initial cost may vary, tapered roller bearings are often cost-effective due to their long service life and ability to handle heavy loads. Their durability can lead to reduced maintenance and replacement costs over time.
- Compatibility with Combined Loads:
Tapered roller bearings are well-suited for applications where radial and axial loads occur simultaneously, eliminating the need for multiple bearing types and simplifying design and installation.
In summary, tapered roller bearings offer a combination of load-carrying capacity, efficiency, adjustability, precision, and versatility that sets them apart from other bearing types. Their ability to handle a variety of loads and conditions makes them an advantageous choice in numerous industrial applications.
editor by CX 2024-03-24
China Hot selling SD060xpo Chrome Steel CZPT Catalog Ultra Reali Slim Wall Roller Silverthin Ball Tapered Thrust Angular Contact Metric Sleeve Thin Section Bearings bearing block
Product Description
KAA opening type 4.762mm(CP0/XP0/AR0
KAA571,KAA015,KAA017
KA opening type 6.35mm(CP0/XP0/AR0
KA571,KA571,KA030,KA035,KA040,KA042,
KA045,KA050,KA055,KA060,KA065,KA070,
KA075,KA080,KA090,KA100,KA110,KA120,
KA140,KA180,KA200
KB opening type 7.938mm(CP0/XP0/AR0
KB571,KB571,KB030,KB035,KB040,KB042,
KB045,KB050,KB055,KB060,KB065,KB070,
KB075,KB080,KB090,KB100,KB110,KB120,
KB140,KB180,KB200
KC opening 9.525mm(CP0/XP0/AR0
KC040,KC042,KC045,KC050,KC055,KC060,
KC065,KC070,KC075,KC080,KC090,KC100,
KC110,KC120,KC140,KC180,KC200
KD opening type 12.7mm(CP0/XP0/AR0
KD040,KD042,KD045,KD050,KD055,KD060,
KD065,KD070,KD075,KD080,KD090,KD100,
KD110,KD120,KD140,KD180,KD200
KF opening type 19.05mm(CP0/XP0/AR0
KF040,KF042,KF045,KF050,KF055,KF060,
KF065,KF070,KF075,KF080,KF090,KF100,
KF110,KF120,KF140,KF180,KF200
KG open 25.4mm(CP0/XP0/AR0
KG040,KG042,KG045,KG050,KG055,
KG060,KG065,KG070,KG075,KG080,
KG090,KG100,KG110,KG120,KG140,
KG180,KG200,KG250,KG300,KG400
JA seals 6.35mm(CP0/XP0/A
JHA571,JHA015,JA571,JA571,JA030,JA035,
JA040,JA042,JA045,JA050,JA055,JA060,JA065
JB seals 7.938mm(CP0/XP0/AR
JB571,JB571,JB030,JB035,JB040,JB042,
JB045,JB050,JB055,JB060,JB065
JU seals 12.7mm(CP0/XP0/AR
JU040,JU042,JU045,JU050,JU055,JU060,
JU065,JU070,JU075,JU080,JU090,JU100,
JU110,JU120
JG seals 25.4mm(CP0/XP0/AR0
JG120,JG140,JG160,JG180
5mm-360mm is 8mm,13mm,20mm
thick 8mm (CP0/XP0/
K57108,K05008,K06008,K07008,K08008,K09008,K10008,K11008,
K12008,K13008,K14008,K15008,K16008,K17008,K1K20008,K25008,K30008,K32008,K34008,K36 thick 13mm open (CP0/XP0/
K57113,K05013,K06013,K 0571 3,K08013,K 0571 3,K10013,K11013,
K12013,K13013,K14013,K15013,K16013,K17013,K18013,K19013,
K20013,K25013,K30013,K32013,K34013,K36013
T20mm(CP0/XP0/
K571hinck 20,K 0571 1,K06571,K5711,K 0571 1,K09571,K1571,K11571,
K12571,K13571,K14571,K15571,K16571,K17571,K18571,K19571,
K2571,K25571,K3571,K32571,K34571,K36571
thick 8mm Seals (CP0/XP0/ARO
J57108,J05008,J06008,J07008,J08008,J09008,J10008,J11008,
J12008,J13008,J14008,J15008,J16008,J1700
/* 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: | P0.P6.P5 |
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Cage Material: | Brass.Nylon Plastic Full Ball |
Outer Ring: | Chrome Steel |
Inner Ring: | Gcr15 |
Weight: | 0.113kg |
Structure: | Xpo Aro Cpo |
Can you Explain the Design and Construction of Tapered Roller Bearings?
The design and construction of tapered roller bearings are characterized by their conical geometry and specific components that enable them to handle radial and axial loads simultaneously. Here’s an overview of their design and construction:
- Components:
Tapered roller bearings consist of the following components:
- Inner Ring:
The inner ring has a conical raceway on its inner surface, which matches the conical shape of the rollers. It serves as the raceway for the rollers and provides support to the rotating assembly.
- Outer Ring:
The outer ring also features a conical raceway on its inner surface that complements the shape of the rollers. The outer ring provides a rigid structure to house the entire bearing assembly.
- Tapered Rollers:
The rollers have a conical shape with varying diameters along their length. This design allows the rollers to make point contact with the inner and outer raceways, distributing loads efficiently.
- Cage:
The cage or retainer holds the rollers in position, maintaining proper spacing and preventing them from coming into contact with each other. The cage material can vary, and its design may affect factors like friction and heat generation.
- Conical Geometry:
The distinguishing feature of tapered roller bearings is their conical geometry. The conical angle is defined by the contact angle between the roller axis and the bearing axis. This angle facilitates effective load distribution and axial load support.
- Load Distribution:
The conical shape of the rollers and raceways allows tapered roller bearings to handle both radial and axial loads. Radial loads are primarily supported by the larger diameter of the rollers at the large end of the cone, while axial loads are absorbed by the smaller diameter near the small end of the cone.
- Adjustable Clearance and Preload:
Many tapered roller bearings allow for adjustable internal clearance or preload. This feature enables fine-tuning of the bearing’s internal play, optimizing performance and minimizing friction.
- Thrust Capability:
Tapered roller bearings can handle thrust (axial) loads in one direction, making them suitable for applications where axial loads need to be managed along with radial loads.
- Applications:
Tapered roller bearings find applications in various industries, including automotive, heavy machinery, aerospace, and more. They are used in scenarios that require efficient load distribution and handling of combined loads.
In summary, tapered roller bearings are designed with conical geometry to accommodate both radial and axial loads. Their specific components, such as tapered rollers and a cage, work together to ensure effective load distribution, making them suitable for a wide range of industrial applications.
Can you Explain the Design and Construction of Tapered Roller Bearings?
The design and construction of tapered roller bearings are characterized by their conical geometry and specific components that enable them to handle radial and axial loads simultaneously. Here’s an overview of their design and construction:
- Components:
Tapered roller bearings consist of the following components:
- Inner Ring:
The inner ring has a conical raceway on its inner surface, which matches the conical shape of the rollers. It serves as the raceway for the rollers and provides support to the rotating assembly.
- Outer Ring:
The outer ring also features a conical raceway on its inner surface that complements the shape of the rollers. The outer ring provides a rigid structure to house the entire bearing assembly.
- Tapered Rollers:
The rollers have a conical shape with varying diameters along their length. This design allows the rollers to make point contact with the inner and outer raceways, distributing loads efficiently.
- Cage:
The cage or retainer holds the rollers in position, maintaining proper spacing and preventing them from coming into contact with each other. The cage material can vary, and its design may affect factors like friction and heat generation.
- Conical Geometry:
The distinguishing feature of tapered roller bearings is their conical geometry. The conical angle is defined by the contact angle between the roller axis and the bearing axis. This angle facilitates effective load distribution and axial load support.
- Load Distribution:
The conical shape of the rollers and raceways allows tapered roller bearings to handle both radial and axial loads. Radial loads are primarily supported by the larger diameter of the rollers at the large end of the cone, while axial loads are absorbed by the smaller diameter near the small end of the cone.
- Adjustable Clearance and Preload:
Many tapered roller bearings allow for adjustable internal clearance or preload. This feature enables fine-tuning of the bearing’s internal play, optimizing performance and minimizing friction.
- Thrust Capability:
Tapered roller bearings can handle thrust (axial) loads in one direction, making them suitable for applications where axial loads need to be managed along with radial loads.
- Applications:
Tapered roller bearings find applications in various industries, including automotive, heavy machinery, aerospace, and more. They are used in scenarios that require efficient load distribution and handling of combined loads.
In summary, tapered roller bearings are designed with conical geometry to accommodate both radial and axial loads. Their specific components, such as tapered rollers and a cage, work together to ensure effective load distribution, making them suitable for a wide range of industrial applications.
What are the Common Signs of Wear or Damage in Tapered Roller Bearings?
Identifying signs of wear or damage in tapered roller bearings is crucial for maintaining optimal performance and preventing costly failures. Here are the common signs to look for:
- Abnormal Noise:
Unusual noises, such as grinding, clicking, or rumbling sounds, may indicate damage within the bearing. These noises could result from worn rollers, raceways, or insufficient lubrication.
- Vibration:
Excessive vibration or unusual vibrations not typically present during operation may indicate an issue with the bearing. Vibration can result from misalignment, worn components, or uneven loading.
- Increased Operating Temperature:
If the bearing becomes excessively hot during operation, it could indicate inadequate lubrication, excessive friction, or other issues. Monitoring temperature changes can help identify potential problems.
- Irregular Rotation:
If the bearing experiences irregular rotation, such as sticking or rough movement, it could be due to damaged rollers, misalignment, or improper preload.
- Visible Wear:
Inspect the bearing for visible signs of wear or damage, such as pitting, scoring, discoloration, or deformation of the bearing components.
- Increased Noise or Vibration Under Load:
If the bearing makes more noise or vibrates noticeably when subjected to load, it could indicate that the bearing is unable to handle the applied load properly.
- Uneven Wear:
Uneven wear patterns on the rollers or raceways can suggest misalignment or inadequate lubrication, causing the bearing to experience uneven loading.
- Loss of Performance:
If the bearing’s performance decreases, such as reduced efficiency or increased friction, it may indicate wear, contamination, or other issues affecting the bearing’s operation.
- Looseness or Play:
If there’s excessive play or looseness in the bearing assembly, it could be a sign of worn components or inadequate preload, impacting the bearing’s stability and performance.
- Leaks or Contaminants:
Inspect for leaks of lubricant or the presence of contaminants around the bearing. Leaks can indicate seal damage, and contaminants can accelerate wear.
- Observable Damage to Components:
If any bearing components, such as rollers, cages, or raceways, appear visibly damaged or deformed, immediate attention is necessary to prevent further issues.
Regular inspection and maintenance are essential to catch these signs early and prevent further damage. Addressing wear or damage promptly can extend the bearing’s lifespan and avoid costly downtime.
editor by CX 2024-03-05
China high quality Thin Wall Axs150164 Thrust Angular Contact Roller Bearing 150*164*6mm Installed in Pairs bearing and race
Product Description
Thin Wall AXS150164 Thrust Angular Contact Roller Bearing 150*164*6mm Installed In Pairs
Bearing Specification :
Model Number | AXS150164 |
Bearing Name | Needle Roller Bearing |
Application | Automotive Parts |
Brand | FSK / KBE / SKB / OEM |
Material | Gcr15 Chrome Steel |
Number of Row | Single Row |
Dimensions(mm)(d*D*b) | 150*164*6mm |
Weight / Mass ( KG ) | 0.1kg |
HS Code | 8482800000 |
Original Country Show | CHINA |
Bearings Detailed Pictures:
The Same Bearings We Offer:
Bearing | d | D | H | m |
AXS571 | 8 mm | 16 mm | 3 mm | 0.003 KG |
AXS1220 | 12 mm | 20 mm | 3 mm | 0.003 KG |
AXS2034 | 20 mm | 34 mm | 5 mm | 0.016 KG |
AXS3550 | 35 mm | 50 mm | 6 mm | 0.571 KG |
AXS4558 | 45 mm | 58 mm | 6 mm | 0.035 KG |
AXS6074 | 60 mm | 74 mm | 5 mm | 0.036 KG |
AXS8599 | 85 mm | 99 mm | 6 mm | 0.060 KG |
AXS100115 | 101 mm | 115 mm | 6 mm | 0.070 KG |
AXS115129 | 115 mm | 129 mm | 5 mm | 0.065 KG |
AXS120134 | 120 mm | 134 mm | 6 mm | 0.080 KG |
AXS140154 | 140 mm | 154 mm | 6 mm | 0.090 KG |
AXS145169 | 145 mm | 169 mm | 7.4 mm | 0.267 KG |
AXS150164 | 150 mm | 164 mm | 6 mm | 0.100 KG |
AXS160180 | 160 mm | 180 mm | 6 mm | 0.168 KG |
AXS175200 | 175 mm | 199 mm | 7.4 mm | 0.300 KG |
Other Bearings We Offer:
Hot Sales in our company |
1. deep groove ball bearing 6000,6200,6300,6400,61800,61900,Z,RS,ZZ,2RS |
2. spherical roller bearing 22200,22300,23000,24000,23100,24100,CA,CC,E,W33 |
3. cylindrical roller bearingN,NU,NJ,NN,NUP,E,ECP,ECM,ECJ |
4. taper roller bearing 35710,30300,32200,32300,31300,32000 |
5. Aligning ball bearing 1200,1300,2200,2300, |
6. needle roller bearing NA,NAV,NK,NKI,RNA,NK,RNAV,ZKLF,ZKLN,ZARF,ZARN |
7. thrust ball bearing 51100,51200,51300,51400,E,M |
8. angular contact ball bearing7000,7100,7200,7300,AC,BECBM,C |
9. spherical plain bearing GE,GEG,GEEW,U,UC,UG,GX,GAC,SA,SABP |
Our Advantage:
About FSK Factory Condition :
FAQ:
1.How can I get the bearing price?
Mike: You can leave your message on Alibaba, or conact us directly by email, , SkYPE, Viber. Tell us your quantity, usually 2-5 hours you will get the price.
2.How can I buy them?
Mike: You can place order on Alibaba, or pay the payment by Western Union, Paypal, T/T and L/C.
3. How long I can get these bearings?
Mike: for small order, we will delivery the bearings in 1-2 days after recive your payment. usually 3-5 days will arrive in your place by international express, such as DHL, TNT, UPS and so on. For big order, please contact us.
4.How to protect the bearing quality?
Mike: All procudts passed ISO9001:2008 and ISO14000 certificates. we can accept small sample order, you can check the quality.
5. Other service.
Mike: We can offer OEM service according to your demand.
FSK Bearing Company Advantages:
(1) We have first-class testing equipment to detect bearing various data parameters and control the quality of the bearing.
Whenever bearings must first detected whether the quality is qualified and the unqualified bearing will be eliminated directly.
So we can get the trust of a large number of customers, and supply them for several years.
(2) We have our own R & D capabilities, to help customers solve the problem of non-standard bearings.
We can also according to customer requirements change their own mark.
(3) Price, our manufacture ensure that our prices across China are quite competitive.
It is better for you to compare prices and quality among suppliers.
But everyone knows you can not buy the highest quality products with the lowest price,
but our product is the best quality if you use equal price.
FSK Cooperation Details
Delivery:
For Small weight or ungent ,we send by express UPS,DHL,FEDEX, or EMS,china post with Thracking number
For max production , we will ship by sea/air.
Payment Item:
TT, 30% deposit , 70% before shippment.
L/C At Sight
Paypal Or Western Union In advance
Service:
Trade Assurance
Payment Protection
Timely Delivery Guaranteed
Product Qualtity Protection
Thin Wall AXS150164 Thrust Angular Contact Roller Bearing 150*164*6mm Installed In Pairs , Get Cheap Price from China Bearing Factory Now !
/* 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(/(.*?):(.*)$/))&&1
Rows Number: | Single |
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Load Direction: | Radial Bearing |
Material: | Bearing Steel |
Samples: |
US$ 0.5/Piece
1 Piece(Min.Order) | Order Sample |
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Customization: |
Available
| Customized Request |
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.shipping-cost-tm .tm-status-off{background: none;padding:0;color: #1470cc}
Shipping Cost:
Estimated freight per unit. |
about shipping cost and estimated delivery time. |
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Payment Method: |
|
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Initial Payment Full Payment |
Currency: | US$ |
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Return&refunds: | You can apply for a refund up to 30 days after receipt of the products. |
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How does Proper Lubrication Impact the Performance and Longevity of Tapered Roller Bearings?
Proper lubrication is essential for ensuring optimal performance and longevity of tapered roller bearings. Lubrication plays a critical role in reducing friction, preventing wear, and managing heat generated during operation. Here’s how proper lubrication impacts tapered roller bearings:
- Reduced Friction:
Lubrication forms a thin film between the rolling elements and raceways, reducing direct metal-to-metal contact. This minimizes friction and the associated heat generation, allowing the bearing to operate smoothly and efficiently.
- Wear Prevention:
Lubrication forms a protective barrier that prevents wear and surface damage. Without proper lubrication, friction can lead to accelerated wear, pitting, and even surface scoring, shortening the bearing’s lifespan.
- Heat Dissipation:
Effective lubrication helps dissipate heat generated during operation. This is especially crucial in high-speed applications where excessive heat can lead to premature bearing failure or degradation of lubricant properties.
- Corrosion Protection:
Lubrication helps create a barrier that protects bearing surfaces from environmental factors that could lead to corrosion. This is particularly important in applications exposed to moisture, chemicals, or other corrosive agents.
- Noise and Vibration Reduction:
Proper lubrication can dampen vibrations and reduce noise by providing a cushioning effect between the rolling elements and raceways. This contributes to smoother and quieter operation.
- Longevity:
Well-lubricated bearings experience less wear and stress, leading to extended service life. Bearings that are inadequately lubricated or run dry are prone to premature failure due to excessive wear, heat buildup, and damage to bearing surfaces.
- Efficiency:
Adequate lubrication maintains the bearing’s efficiency by minimizing energy losses due to friction. Bearings that lack proper lubrication require more energy to overcome higher friction levels, resulting in reduced efficiency.
- Lubrication Methods:
Various lubrication methods are available, including grease lubrication and oil lubrication. The choice depends on factors such as speed, load, temperature, and application requirements.
To ensure proper lubrication:
- Follow Manufacturer Recommendations:
Consult the bearing manufacturer’s recommendations for lubricant type, viscosity, and replenishment intervals.
- Monitor and Maintain:
Regularly monitor the condition of the lubricant and the bearing’s performance. Implement a maintenance schedule for lubricant replacement or replenishment.
- Environmental Considerations:
Consider the operating environment’s temperature, contamination levels, and exposure to external elements. Some applications may require special lubricants for extreme conditions.
In summary, proper lubrication is crucial for maintaining tapered roller bearings’ performance, preventing wear, reducing friction and heat, and extending their lifespan. A well-lubricated bearing contributes to smoother operation, lower maintenance costs, and improved efficiency.
What Advantages do Tapered Roller Bearings Offer Compared to Other Bearing Types?
Tapered roller bearings offer several advantages that make them a preferred choice in various applications compared to other bearing types. These advantages stem from their unique design and capabilities. Here’s a look at the benefits of tapered roller bearings:
- High Load-Carrying Capacity:
Tapered roller bearings can handle both radial and axial loads simultaneously, making them suitable for applications with combined loads. Their conical geometry allows for effective load distribution, enabling them to support heavy loads without premature wear.
- Efficient Axial Load Handling:
Tapered roller bearings excel at managing axial (thrust) loads in one direction. This capability is crucial in applications where axial loads are present, such as automotive transmissions or industrial machinery.
- Reduced Friction and Heat Generation:
The conical shape of the rollers and the matching raceways result in point contact, reducing friction and minimizing heat generation. This efficiency contributes to improved overall performance and energy savings.
- Adjustable Clearance and Preload:
Tapered roller bearings often allow for adjustable internal clearance or preload. This feature enables fine-tuning of the bearing’s play, optimizing performance and extending the bearing’s lifespan.
- High Precision:
Tapered roller bearings are available in various precision classes to meet different application requirements. Their precision makes them suitable for applications demanding accurate motion control and positioning.
- Versatility:
Tapered roller bearings are used in a wide range of industries and applications, from automotive and heavy machinery to aerospace and industrial equipment. Their ability to handle diverse loads and conditions contributes to their versatility.
- Durability:
Tapered roller bearings are designed to withstand shocks and impacts, making them suitable for applications with dynamic loads or vibrations. Their robust construction contributes to their overall durability.
- High-Speed Capability:
Tapered roller bearings can operate at high speeds due to their efficient contact geometry and reduced friction. This makes them suitable for applications requiring rapid rotation.
- Cost-Effectiveness:
While the initial cost may vary, tapered roller bearings are often cost-effective due to their long service life and ability to handle heavy loads. Their durability can lead to reduced maintenance and replacement costs over time.
- Compatibility with Combined Loads:
Tapered roller bearings are well-suited for applications where radial and axial loads occur simultaneously, eliminating the need for multiple bearing types and simplifying design and installation.
In summary, tapered roller bearings offer a combination of load-carrying capacity, efficiency, adjustability, precision, and versatility that sets them apart from other bearing types. Their ability to handle a variety of loads and conditions makes them an advantageous choice in numerous industrial applications.
What Advantages do Tapered Roller Bearings Offer Compared to Other Bearing Types?
Tapered roller bearings offer several advantages that make them a preferred choice in various applications compared to other bearing types. These advantages stem from their unique design and capabilities. Here’s a look at the benefits of tapered roller bearings:
- High Load-Carrying Capacity:
Tapered roller bearings can handle both radial and axial loads simultaneously, making them suitable for applications with combined loads. Their conical geometry allows for effective load distribution, enabling them to support heavy loads without premature wear.
- Efficient Axial Load Handling:
Tapered roller bearings excel at managing axial (thrust) loads in one direction. This capability is crucial in applications where axial loads are present, such as automotive transmissions or industrial machinery.
- Reduced Friction and Heat Generation:
The conical shape of the rollers and the matching raceways result in point contact, reducing friction and minimizing heat generation. This efficiency contributes to improved overall performance and energy savings.
- Adjustable Clearance and Preload:
Tapered roller bearings often allow for adjustable internal clearance or preload. This feature enables fine-tuning of the bearing’s play, optimizing performance and extending the bearing’s lifespan.
- High Precision:
Tapered roller bearings are available in various precision classes to meet different application requirements. Their precision makes them suitable for applications demanding accurate motion control and positioning.
- Versatility:
Tapered roller bearings are used in a wide range of industries and applications, from automotive and heavy machinery to aerospace and industrial equipment. Their ability to handle diverse loads and conditions contributes to their versatility.
- Durability:
Tapered roller bearings are designed to withstand shocks and impacts, making them suitable for applications with dynamic loads or vibrations. Their robust construction contributes to their overall durability.
- High-Speed Capability:
Tapered roller bearings can operate at high speeds due to their efficient contact geometry and reduced friction. This makes them suitable for applications requiring rapid rotation.
- Cost-Effectiveness:
While the initial cost may vary, tapered roller bearings are often cost-effective due to their long service life and ability to handle heavy loads. Their durability can lead to reduced maintenance and replacement costs over time.
- Compatibility with Combined Loads:
Tapered roller bearings are well-suited for applications where radial and axial loads occur simultaneously, eliminating the need for multiple bearing types and simplifying design and installation.
In summary, tapered roller bearings offer a combination of load-carrying capacity, efficiency, adjustability, precision, and versatility that sets them apart from other bearing types. Their ability to handle a variety of loads and conditions makes them an advantageous choice in numerous industrial applications.
editor by CX 2024-02-28