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| Brand Name: | AWX |
| Model Number: | 29368M 29368 EM 29368-E1 29368E |
| MOQ: | 10PCS |
| Price: | Negotiate |
| Packaging Details: | single box |
| Payment Terms: | L/C, D/A, D/P, T/T, Western Union, MoneyGram |
Thrust roller bearings are engineering components that support substantial axial loads and can handle some radial loads in specific arrangements. These bearings are perfect for industrial applications where high-load carrying capacity is crucial, and space is limited. Thrust roller bearings are widely used in heavy machinery, gearboxes, turbines, and marine propulsion systems. Therefore, they are an essential part of numerous large-scale industrial applications.
Thrust roller bearings are designed to handle high axial loads, where the load is applied parallel to the shaft. The rollers in thrust roller bearings are arranged perpendicular to the shaft, distributing the load evenly over a large surface area. This arrangement allows the bearing to handle higher axial loads efficiently.
Manufacturers design Thrust roller bearings with different types of rollers such as cylindrical, tapered, and spherical rollers. The choice of rollers depends on the application and the level of axial and radial loads the bearing needs to withstand. Depending on the application, the bearings may also use different types of cages to hold the rollers in place.
Thrust roller bearings are a critical component in various industrial applications that require high axial load capacity and limited space. With different types of rollers and cage options available, these bearings can be tailored to meet specific application requirements.
Thrust roller bearings are special bearings designed to withstand high axial loads and are widely used in mechanical equipment that is mainly axial force. The following are its main features:
1. Strong axial load capacity
Thrust roller bearings can withstand extremely large axial loads, but are not suitable for bearing significant radial loads.
2. Multiple roller types
Common roller types include:
Cylindrical rollers: Suitable for high-speed operation environments.
Tapered rollers: Can withstand both axial loads and limited radial loads.
Spherical rollers: With self-aligning function, they can adapt to the installation errors of the shaft or housing.
3. Low friction design
The optimized rolling surface and structural design reduce friction, energy loss and heat generation during operation.
4. High rigidity
The roller structure provides excellent rigidity, making it suitable for applications that require high precision.
5. Self-aligning capability (for spherical types)
Spherical thrust roller bearings can adjust the centering deviation caused by installation or load, and operate more stably and reliably.
6. Compact structure
The design makes full use of space, ensuring high load capacity while maintaining a small volume.
7. Strong material durability
Usually made of high-strength alloy steel or other high-quality materials, it has excellent wear resistance and fatigue resistance.
The automotive industry encompasses a wide range of products and systems, including transmissions and differential systems. Transmissions refer to the gears and mechanisms in a vehicle that allow power from the engine to be transferred to the wheels. Differential systems are responsible for distributing power between the wheels, ensuring that each wheel receives the appropriate amount of power for optimal driving performance.
Industrial equipment is used in a variety of settings, from manufacturing facilities to construction sites. Examples include presses, which are machines used to shape or mold materials using pressure, extruders, which are used to create continuous lengths of materials by forcing them through a die, and crane hooks, which are used to lift heavy loads. These machines often require precision engineering to ensure safety and reliability in their operation.
The energy sector includes equipment used in generating and distributing power, such as wind turbines and hydropower equipment. Wind turbines generate electricity by converting the kinetic energy of the wind into electrical energy, while hydropower equipment uses the energy of flowing water to turn turbines and generate power. These equipment require careful design and maintenance to ensure they operate at peak efficiency while minimizing environmental impact.
Propulsion systems and control mechanisms are critical components of both marine and aerospace equipment. Propulsion systems are responsible for moving ships, boats, and aircraft, while control mechanisms allow for precise maneuvering and navigation. These systems must meet stringent safety and performance requirements, as failure can result in catastrophic consequences. Engineers in these industries must balance technological innovation with safety and reliability in their designs.
Product Packaging:
Shipping:
Q: What is the brand name of this product?
A: The brand name of this product is AWX.
Q: Where is this product manufactured?
A: This product is manufactured in China.
Q: What certifications does this product have?
A: This product has ISO9001:2000 and TS16949 certifications.
Q: What is the minimum order quantity for this product?
A: The minimum order quantity for this product is 10PCS.
Q: What is the packaging details for this product?
A: This product comes in single box packaging.
Q: What are the payment terms for this product?
A: The payment terms for this product are L/C, D/A, D/P, T/T, Western Union, and MoneyGram.
Q: What is the delivery time for this product?
A: The delivery time for this product is 30 days.
Q: What is the supply ability of this product?
A: The supply ability of this product is 10000pcs.
Q: How can I negotiate the price for this product?
A: Please contact our sales team to negotiate the price for this product.
|
|
| Brand Name: | AWX |
| Model Number: | 29368M 29368 EM 29368-E1 29368E |
| MOQ: | 10PCS |
| Price: | Negotiate |
| Packaging Details: | single box |
| Payment Terms: | L/C, D/A, D/P, T/T, Western Union, MoneyGram |
Thrust roller bearings are engineering components that support substantial axial loads and can handle some radial loads in specific arrangements. These bearings are perfect for industrial applications where high-load carrying capacity is crucial, and space is limited. Thrust roller bearings are widely used in heavy machinery, gearboxes, turbines, and marine propulsion systems. Therefore, they are an essential part of numerous large-scale industrial applications.
Thrust roller bearings are designed to handle high axial loads, where the load is applied parallel to the shaft. The rollers in thrust roller bearings are arranged perpendicular to the shaft, distributing the load evenly over a large surface area. This arrangement allows the bearing to handle higher axial loads efficiently.
Manufacturers design Thrust roller bearings with different types of rollers such as cylindrical, tapered, and spherical rollers. The choice of rollers depends on the application and the level of axial and radial loads the bearing needs to withstand. Depending on the application, the bearings may also use different types of cages to hold the rollers in place.
Thrust roller bearings are a critical component in various industrial applications that require high axial load capacity and limited space. With different types of rollers and cage options available, these bearings can be tailored to meet specific application requirements.
Thrust roller bearings are special bearings designed to withstand high axial loads and are widely used in mechanical equipment that is mainly axial force. The following are its main features:
1. Strong axial load capacity
Thrust roller bearings can withstand extremely large axial loads, but are not suitable for bearing significant radial loads.
2. Multiple roller types
Common roller types include:
Cylindrical rollers: Suitable for high-speed operation environments.
Tapered rollers: Can withstand both axial loads and limited radial loads.
Spherical rollers: With self-aligning function, they can adapt to the installation errors of the shaft or housing.
3. Low friction design
The optimized rolling surface and structural design reduce friction, energy loss and heat generation during operation.
4. High rigidity
The roller structure provides excellent rigidity, making it suitable for applications that require high precision.
5. Self-aligning capability (for spherical types)
Spherical thrust roller bearings can adjust the centering deviation caused by installation or load, and operate more stably and reliably.
6. Compact structure
The design makes full use of space, ensuring high load capacity while maintaining a small volume.
7. Strong material durability
Usually made of high-strength alloy steel or other high-quality materials, it has excellent wear resistance and fatigue resistance.
The automotive industry encompasses a wide range of products and systems, including transmissions and differential systems. Transmissions refer to the gears and mechanisms in a vehicle that allow power from the engine to be transferred to the wheels. Differential systems are responsible for distributing power between the wheels, ensuring that each wheel receives the appropriate amount of power for optimal driving performance.
Industrial equipment is used in a variety of settings, from manufacturing facilities to construction sites. Examples include presses, which are machines used to shape or mold materials using pressure, extruders, which are used to create continuous lengths of materials by forcing them through a die, and crane hooks, which are used to lift heavy loads. These machines often require precision engineering to ensure safety and reliability in their operation.
The energy sector includes equipment used in generating and distributing power, such as wind turbines and hydropower equipment. Wind turbines generate electricity by converting the kinetic energy of the wind into electrical energy, while hydropower equipment uses the energy of flowing water to turn turbines and generate power. These equipment require careful design and maintenance to ensure they operate at peak efficiency while minimizing environmental impact.
Propulsion systems and control mechanisms are critical components of both marine and aerospace equipment. Propulsion systems are responsible for moving ships, boats, and aircraft, while control mechanisms allow for precise maneuvering and navigation. These systems must meet stringent safety and performance requirements, as failure can result in catastrophic consequences. Engineers in these industries must balance technological innovation with safety and reliability in their designs.
Product Packaging:
Shipping:
Q: What is the brand name of this product?
A: The brand name of this product is AWX.
Q: Where is this product manufactured?
A: This product is manufactured in China.
Q: What certifications does this product have?
A: This product has ISO9001:2000 and TS16949 certifications.
Q: What is the minimum order quantity for this product?
A: The minimum order quantity for this product is 10PCS.
Q: What is the packaging details for this product?
A: This product comes in single box packaging.
Q: What are the payment terms for this product?
A: The payment terms for this product are L/C, D/A, D/P, T/T, Western Union, and MoneyGram.
Q: What is the delivery time for this product?
A: The delivery time for this product is 30 days.
Q: What is the supply ability of this product?
A: The supply ability of this product is 10000pcs.
Q: How can I negotiate the price for this product?
A: Please contact our sales team to negotiate the price for this product.
