China Standard CZPT Factory/ Rod End Bearing/ Single Row Bearing/ Sliding Bearing/Phs5, Phs6. Phs8, Phs8, Phs10, Phs12/Left Thread/Right Thread with Great quality

Product Description

Certifications

Products Introduction:
The joint bearing is a spherical plain bearing. The basic type is composed of an inner and outer ring with a spherical sliding spherical contact surface.  The joint bearing is mainly composed of an inner ring with an outer sphere and an outer ring with an inner sphere, which can bear a large load.  According to its different type and structure, it can bear radial load, axial load or radial and axial combined load.  Because the outer sphere of the inner ring is inlaid with CZPT material, the bearing can produce self-lubrication in operation.  Generally used for low speed swing motion, but also in a certain Angle range of tilt motion, when the supporting shaft and shaft shell hole concentricity is large, it can still work normally.  Self-lubricating joint auxiliary should be used in water conservancy, professional machinery and other industries.  Because the spherical sliding contact area of joint bearings is large, the inclination Angle is large, but also because most of the joint bearings adopt special processing methods, such as surface phosphating, galvanizing, chrome plating or outer sliding surface lining, insert pad, spraying, etc.  Therefore, it has a large load capacity and impact resistance, and has the characteristics of corrosion resistance, wear resistance, self-aligning, good lubrication or self-lubrication without lubrication dirt pollution, even if the installation dislocation can work normally.  Therefore, joint bearings are widely used in low speed swing motion, tilt motion and rotary motion.  

 

Detailed Photos

 

 

Product Description

 

Material Outer Shell: Carbon Steel; Inner Ball: Bearing Steel
Thread Type Female thread/ Internal thread/ Hollow thread;  Left-hand / right-hand thread.
Surface Treatment Forging/ Machining;  Zinc, brass, chrome, nickel plating.
 Model No.

PHS5,PHS6, PHS8, PHS10, PHS12, PHS14, PHS16, PHS18, PHS20, PHS22, PHS25, PHS28, PHS30.

POS5, POS6, POS8, POS10, POS12, POS14, POS16, POS18, POS20, POS22, POS25, POS28, POS30.

SI5T/K,SI6T/K, SI8T/K, SI10T/K, SI12T/K, SI14T/K, SI16T/K, SI18T/K, SI20T/K, SI22T/K, SI25T/K, SI28T/K, SI30T/K.

SA5T/K,SA6T/K, SA8T/K, SA10T/K, SA12T/K, SA14T/K, SA16T/K, SA18T/K, SA20T/K, SA22T/K, SA25T/K, SA28T/K, SA30T/K.

NHS3,NHS4,NHS5,NHS6,NHS8,NHS10,NHS12,NHS14,NHS16,NHS18,NHS20,NHS22,NHS25,NHS28,NHS30

NOS3,NOS4,NOS5,NOS6,NOS8,NOS10,NOS12,NOS14,NOS16,NOS18,NOS20,NOS22,NOS25,NOS28,NOS30

SI5E,SI6E,SI8E, SI10E, SI12E, SI15ES, SI17ES, SI20ES, SI25ES, SI30ES, SI35ES, SI40ES, SI45ES, SI50ES, SI60ES, SI70ES, SI80ES.

SA5E,SA6E, SA8E, SA10E, SA12E, SA15ES, SA17ES, SA20ES, SA25ES, SA30ES, SA35ES, SA40ES, SA45ES, SA50ES, SA60ES, SA70ES, SA80ES.

maintenance :

There are several common types of rod end joint bearing maintenance  

Regular maintenance: in order to ensure the normal operation of the main engine, according to the requirements of the main engine and bearing design theory and application experience, set a maintenance cycle, regular maintenance.  

Fault maintenance: when the bearing has trouble, stop the machine for inspection and maintenance.  

Early warning maintenance: the application of advanced bearing fault diagnosis technology, the use of bearings to stop real-time monitoring of the state, in the bearing attack before the warning, stop maintenance.  

In the running process of bearings, there must be sound, temperature and vibration phenomena.  Therefore, about the maintenance and maintenance of bearings in operation, abnormal changes of bearings can be found by listening, touching, observing and using bearing fault diagnosis instruments, and according to the state of change, the rod end joint bearing can be in normal working state. 

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Rolling Element: Single Row
Structure: Rod End
Material: Bearing Steel
Load Direction: Thrust Spherical Plain Bearing
Add Lubricant: Self-lubricating
Outer Structure: Whole Outer Ring
Samples:
US$ 1/Piece
1 Piece(Min.Order)

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Request Sample

Customization:
Available

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Customized Request

sliding bearing

Advancements in Sliding Bearing Technology

Recent years have witnessed significant advancements in sliding bearing technology, leading to improved performance, durability, and efficiency in various applications. Some notable developments include:

Self-Lubricating Materials: The use of advanced self-lubricating materials, such as composite polymers and solid lubricants, has reduced the need for external lubrication, enhancing maintenance-free operation.

Nano-Coatings: Nano-coatings with improved wear resistance and reduced friction have been applied to sliding bearings, extending their lifespan and optimizing performance in demanding environments.

Improved Friction Management: Advanced surface texturing and micro-grooving techniques have been employed to manage friction and reduce wear, contributing to smoother operation and increased efficiency.

Bearing Monitoring Systems: Integration of sensors and monitoring systems allows real-time tracking of bearing health, enabling predictive maintenance and reducing unexpected downtime.

Customization: Modern manufacturing techniques, such as 3D printing and precision machining, allow for customized sliding bearings tailored to specific applications, improving overall system performance.

Environmentally Friendly Solutions: Development of environmentally friendly lubricants and materials ensures compliance with regulations and minimizes the impact of sliding bearing technology on the environment.

High-Load Capacities: Advances in material science and engineering have led to sliding bearings with increased load-carrying capacities, making them suitable for heavy-duty applications.

Enhanced Wear Resistance: Improved material compositions and surface treatments have enhanced wear resistance, reducing the need for frequent replacements and maintenance.

Reduced Noise and Vibration: Innovations in design and materials have resulted in sliding bearings that produce less noise and vibration, contributing to quieter and more comfortable machinery operation.

Integration with IoT: Integration of sliding bearings into the Internet of Things (IoT) networks allows for remote monitoring and optimization of bearing performance.

Digital Twin Technology: Digital twin simulations are being used to model sliding bearing behavior, aiding in design optimization and performance prediction.

Efficiency in High-Temperature Environments: Advancements in heat-resistant materials have enabled sliding bearings to operate efficiently in high-temperature industrial applications.

These advancements collectively contribute to the evolution of sliding bearing technology, making them more reliable, durable, and adaptable to a wide range of industrial and commercial applications.

sliding bearing

Managing Friction and Wear in Sliding Bearings

Friction and wear are common challenges in sliding bearings that can lead to reduced performance and premature failure. Here’s a detailed look at these challenges and some solutions to manage them:

Challenges:

  • Friction: High friction can lead to energy loss, increased heat generation, and accelerated wear.
  • Wear: Continuous contact between sliding surfaces can result in material removal and surface degradation over time.

Solutions:

  • Lubrication: Proper lubrication is crucial to reduce friction and wear. Lubricants create a protective film between sliding surfaces, minimizing direct contact and promoting smooth movement.
  • Self-Lubricating Bearings: Bearings made from self-lubricating materials, such as polymers containing solid lubricants, can offer continuous lubrication without external intervention.
  • Bearing Design: Optimized bearing designs, such as incorporating grooves or pockets for lubricant retention, can enhance lubrication efficiency and reduce friction.
  • Maintenance: Regular maintenance and lubricant replenishment help ensure consistent lubrication levels and prevent excessive wear.
  • Material Selection: Choosing materials with low friction coefficients and high wear resistance can minimize friction and extend bearing life.
  • Surface Treatments: Coatings, such as PTFE or DLC (diamond-like carbon), can be applied to bearing surfaces to reduce friction and enhance wear resistance.
  • Clearance Adjustment: Proper clearance between bearing components can reduce friction and prevent excessive loading.

By implementing effective lubrication strategies, choosing appropriate materials, and employing suitable design practices, the challenges of friction and wear in sliding bearings can be effectively managed, leading to improved performance and longer bearing life.

sliding bearing

Considerations for Selecting Sliding Bearings

When choosing a sliding bearing for a specific application, several key factors should be taken into consideration:

  • Load Capacity: Determine the maximum load the bearing will need to support. This includes both radial and axial loads, as well as any dynamic or static loads.
  • Operating Conditions: Consider the operating environment, including temperature, humidity, and exposure to chemicals or contaminants. Different materials and coatings may be required for harsh conditions.
  • Lubrication: Choose the appropriate lubrication method based on the application. Consider factors such as the frequency of lubrication, the availability of lubrication points, and the compatibility of lubricants with the bearing material.
  • Speed and Motion: Evaluate the speed and type of motion the bearing will experience. Higher speeds may require special considerations for heat dissipation and lubrication.
  • Alignment and Misalignment: Determine if the bearing will need to accommodate misalignment between the shaft and the bearing housing. Some applications may require self-aligning or spherical bearings.
  • Wear Resistance: Choose a bearing material that offers good wear resistance to prevent premature wear and extend the bearing’s lifespan.
  • Noise and Vibration: Consider the impact of noise and vibration on the application. Bearings with proper damping properties can help reduce noise and vibration levels.
  • Maintenance Requirements: Assess the ease of maintenance, including lubrication intervals, accessibility of lubrication points, and the need for regular inspections.
  • Cost and Availability: Compare the cost of the bearing with its expected performance and lifespan. Also, ensure that the chosen bearing type and size are readily available.
  • Application-Specific Considerations: Some applications may have unique requirements, such as corrosion resistance, electrical insulation, or compatibility with food-grade standards.

By carefully considering these factors, you can select a sliding bearing that meets the specific needs of your application, ensuring reliable performance and longevity.

China Standard CZPT Factory/ Rod End Bearing/ Single Row Bearing/ Sliding Bearing/Phs5, Phs6. Phs8, Phs8, Phs10, Phs12/Left Thread/Right Thread   with Great qualityChina Standard CZPT Factory/ Rod End Bearing/ Single Row Bearing/ Sliding Bearing/Phs5, Phs6. Phs8, Phs8, Phs10, Phs12/Left Thread/Right Thread   with Great quality
editor by CX 2024-02-04