China Professional Automotive Parts Rear Axle Wheel Bearing Hub 512151 Br930145 for Buick Century 1997-2003 axle bearing

Product Description

Product Description

A wheel bearing is applied to the automotive axle to load and provide accurate CZPT components for the rotation of the wheel hub, both bearing axial load and radial load. It has good performance to installation, omitted clearance, lightweight, compact structure, large load capacity, for the sealed bearing prior to loading, ellipsis external wheel grease seal and from maintenance, etc. And wheel bearing has been widely used in cars, trucks.

 

An Auto wheel bearing is the main usage bearing and provides an accurate CZPT to the rotation of the wheel hub. Under axial and radial load, it is a very important component. It is developed on the basis of standardized angular contact ball bearings and tapered roller bearings.
 

Features: 

 A. auto wheel hub bearings are adopted with international superior raw material and high-class grease from USA Shell grease. 

B.The series auto wheel hub bearings are in the nature of frame structure, lightweight, large rated burden, strong resistant capability, thermostability, good dustproof performance and etc. 

C. Auto wheel hub bearing can be endured bidirectional axial load and major radial load and sealed bearings are unnecessary to add lubricant additives upon assembly. 

Product Parameters

Item Automotive parts Rear axle wheel bearing hub 512151 BR930145 for BUICK CENTURY 1997-2
7470609
7470610

Ref. No.

512151
RW8151
BR930145
512151
HA590074
 

Applicable Models (Please contact us for more details)
 

Year Make Model Engine
2003 Buick Century 3.1L 189Cu. In. V6 GAS OHV Naturally Aspirated
2002 Buick Century 3.1L 189Cu. In. V6 GAS OHV Naturally Aspirated
2002 Buick Century 3.1L 189Cu. In. V6 GAS OHV Naturally Aspirated
2001 Buick Century 3.1L 189Cu. In. V6 GAS OHV Naturally Aspirated
2001 Buick Century 3.1L 189Cu. In. V6 GAS OHV Naturally Aspirated
2001 Chevrolet Lumina 3.1L 189Cu. In. V6 GAS OHV Naturally Aspirated
2000 Buick Century 3.1L 189Cu. In. V6 GAS OHV Naturally Aspirated
2000 Buick Century 3.1L 189Cu. In. V6 GAS OHV Naturally Aspirated
2000 Chevrolet Lumina 3.1L 189Cu. In. V6 GAS OHV Naturally Aspirated
1999 Buick Century 3.1L 189Cu. In. V6 GAS OHV Naturally Aspirated
1999 Buick Century 3.1L 189Cu. In. V6 GAS OHV Naturally Aspirated
1999 Chevrolet Lumina 3.1L 189Cu. In. V6 GAS OHV Naturally Aspirated
1999 Chevrolet Lumina 3.8L 3800CC 231Cu. In. V6 GAS OHV Naturally Aspirated
1999 Chevrolet Lumina 3.1L 189Cu. In. V6 GAS OHV Naturally Aspirated
1999 Chevrolet Lumina 3.8L 3800CC 231Cu. In. V6 GAS OHV Naturally Aspirated
1999 Chevrolet Lumina 3.1L 189Cu. In. V6 GAS OHV Naturally Aspirated
1999 Chevrolet Lumina 3.8L 3800CC 231Cu. In. V6 GAS OHV Naturally Aspirated
1999 Chevrolet Monte Carlo 3.8L 3800CC 231Cu. In. V6 GAS OHV Naturally Aspirated
1999 Chevrolet Monte Carlo 3.1L 189Cu. In. V6 GAS OHV Naturally Aspirated
1999 Chevrolet Monte Carlo 3.8L 3800CC 231Cu. In. V6 GAS OHV Naturally Aspirated

 

Other Model List Reference( Please contact us for more details)

Ref. No Ref. No Ref. No Car Model
512000 BR930053 512000 Saturn S Series
512179 BR930071 512179 Acura
513098 FW156 513098 Acura
513033 BR93571 513033 Acura Integra
513105 BR930113 513105 Acura Integra
512012 BR935718 512012 Audi TT
513125 BR930161 513125 BMW 318
513017K BR93571K 513017K Buick  Skyhawk
512244 BR930075 HA590073 Buick Allure
513203 BR930184 HA590076/ HA590085 Buick Allure
512078 BR930078 512078 Buick Century
512150 BR930075 512150 Buick Century
512151 BR930145 512151 Buick Century
512237 BR930075 512237 Buick Century
513018 BR930026 513018 Buick Century
513121 BR930148 Threaded Hub/BR930548K 513121 Buick Century
513160 BR930184 513160 Buick Century
513179 BR930149/930548K 513179 Buick Century
513011K BR930091K 513011K Buick Century
513016K BR930571K 513016K Buick Century
513062 BR930068 513062 Buick Electra
512003 BR930074 512003 Buick Lesabre
513088 BR930077 513088 Buick LeSabre
513087 BR930076 513087 Buick Park Ave
512004 BR930096 512004 Buick Regal
513044 BR930083K 513044 Buick Regal
513187 BR930149/930548K 513187 Buick Rendevous
513013 BR930052K 513013 Buick Riviera
513012 BR930093 513012 Buick Skyhawk
512001 BR930070 512001 Buick Skylark
515053 BR93571 SP450301 Cadillac Escalade
515571 BR930346 SP550307 Cadillac Esclade
513164 BR930169 HA596467 Cadillac Catera
515036 BR930304 SP500300 cadillac Escalade
515005 BR930265 515005 Chevy Astro
515019 BR935719 SP550308 Chevy Astro
513200 BR930497 SP450300 Chevy Blazer
513090 BR930186 513090 Chevy Camaro
513204 BR935716 HA590068 Chevy Colbalt
512229 BR930327 512229 Chevy Equinox
512230 BR930328 512230 Chevy Equinox
512152 BR930098 512152 Chevy Fleet Classic
513137 BR930080 513137 Chevy Fleet Classic
513215 BR93571 HA590071 Chevy Malibu
518507 BR930300K 518507 Chevy Prizm
515054   SP550306 Chevy Silverado
515058 BR93571 SP58571 Chevy Silverado
513193 BR930308 513193 Chevy Tracker
513124 BR930097 513124 Chevy/GMC
515018   HA591339 Chevy/GMC
515015 BR930406 SP580302/580303 Chevy/GMC  20/2500
515016   SP580300 Chevy/GMC  20/2500
515001 BR930094 515001 Chevy/GMC All K Series
515002 BR930035 515002 Chevy/GMC K Series
515041 BR930406 SP580302/580303 Chevy/GMC K1500
515048     Chevy/GMC K1500
515055     Chevy/GMC K1500
515037     Chevy/GMC K3500
513061 BR930064 513061 Chevy/GMC S15 Jimmy
512133 BR930176 512133 Chrysler Cirrus
512154 BR930194 512154 Chrysler Cirrus
512220 BR930199 512220 Chrysler Cirrus
513138 BR930138 513138 Chrysler Cirrus
512571 BR930188 / 189 512571 Chrysler Concorde
513089 BR930190K 513089 Chrysler Concorde
518501 BR930001 518001 Chrysler E Class
518502 BR930002 518502 Chrysler E Class
513075 BR930013 513075 Chrysler Le Baron
518500 BR930000 518500 Chrysler LeBaron
513123 BR935715 513123 Chrysler Prowler
512167 BR930173 512167 Chrysler PT Cruiser
512136 BR930172 512136 Chrysler Sebring
512157 BR930066 512157 Chrysler Town & Country
512169 BR935718 512169 Chrysler Town & Country
512170 BR935719 512170 Chrysler Town & Country
513074 BR930571K 513074 Chrysler Town & Country
513122 BR935716 513122 Chrysler Town & Country
512155 BR930069 512155 Chrysler Town Country
512156 BR930067 512156 Chrysler Town Country

A wide range of applications:

• agriculture and forestry equipment
• automotive and industrial gearboxes
• automotive and truck electric components, such as alternators
• electric motors
• fluid machinery
• material handling
• power tools and household appliances
• textile machinery
• two Wheeler

Company Profile

Our Advantages

1.ISO Standard

2.Bearing Small order accepted

3.In Stock bearing

4.OEM bearing service

5.Professional Technical Support

6.Timely pre-sale service
7.Competitive price
8.Full range of products on auto bearings
9.Punctual Delivery
11.Excellent after-sale service
 

Packaging & Shipping

 

Packaging Details 1 piece in a single box
50 boxes in a carton
20 cartons in a pallet
Nearest Port ZheJiang or HangZhou
Lead Time For stock parts: 1-5 days.
If no stock parts:
<200 pcs: 15-30 days
≥200 pcs: to be negotiated.

 

FAQ

If you have any other questions, please feel free to contact us as follows:

 

Q: Why did you choose us?

1. We provide the best quality bearings with reasonable prices, low friction, low noise, and long service life.

2. With sufficient stock and fast delivery, you can choose our freight forwarder or your freight forwarder.

 

Q: Do you accept small orders?

100% quality check, once your bearings are standard size bearings, even one, we also accept.

 

Q: How long is your delivery time?

Generally speaking, if the goods are in stock, it is 1-3 days. If the goods are out of stock, it will take 6-10 days, depending on the quantity of the order.

 

Q: Do you provide samples? Is it free or extra?

Yes, we can provide a small number of free samples. 

 

Q: What should I do if I don’t see the type of bearings I need?

We have too many bearing series numbers. Just send us the inquiry and we will be very happy to send you the bearing details.

Q: Could you accept OEM and customize?
A: Yes, we can customize for you according to sample or drawing, but, pls provide us technical data, such as dimension and mark.

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After-sales Service: 1 Year / 30000-50000kms
Warranty: 1 Year / 30000-50000kms
Type: Wheel Hub Bearing
Material: Gcr15/65mn/55
Tolerance: P0 P6 P4 P5 P2
Certification: TS16949
Samples:
US$ 17/Piece
1 Piece(Min.Order)

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Request Sample

Customization:
Available

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Customized Request

axle hub

Are there differences between front and rear axle hubs in terms of design and function?

Yes, there are differences between front and rear axle hubs in terms of design and function. Here’s a detailed explanation of these differences:

1. Design:

The design of front and rear axle hubs can vary based on the specific requirements of each axle position.

Front Axle Hubs: Front axle hubs are typically more complex in design compared to rear axle hubs. This is because front axle hubs are often responsible for connecting the wheels to the steering system and accommodating the front-wheel drive components. Front axle hubs may have provisions for attaching CV (constant velocity) joints, which are necessary for transmitting power from the engine to the front wheels in front-wheel drive or all-wheel drive vehicles. The design of front axle hubs may also incorporate features for connecting the brake rotor, allowing for the integration of the braking system.

Rear Axle Hubs: Rear axle hubs generally have a simpler design compared to front axle hubs. They are primarily responsible for connecting the wheels to the rear axle shafts and supporting the wheel bearings. Rear axle hubs may not require the same level of complexity as front axle hubs since they do not need to accommodate steering components or transmit power from the engine. However, rear axle hubs still play a critical role in supporting the weight of the vehicle, transmitting driving forces, and integrating with the brake system.

2. Function:

The function of front and rear axle hubs differs based on the specific demands placed on each axle position.

Front Axle Hubs: Front axle hubs have the following primary functions:

  • Connect the wheel to the steering system, allowing for controlled steering and maneuverability.
  • Support the wheel bearings to facilitate smooth wheel rotation and weight distribution.
  • Integrate with the front-wheel drive components, such as CV joints, to transmit power from the engine to the front wheels.
  • Provide a mounting point for the brake rotor or drum, allowing for the integration of the braking system.

Rear Axle Hubs: Rear axle hubs have the following primary functions:

  • Connect the wheel to the rear axle shaft, facilitating power transmission and driving forces.
  • Support the wheel bearings to enable smooth wheel rotation and weight distribution.
  • Integrate with the brake system, providing a mounting point for the brake rotor or drum for braking performance.

3. Load Distribution:

Front and rear axle hubs also differ in terms of load distribution.

Front Axle Hubs: Front axle hubs bear the weight of the engine, transmission, and other front-end components. They also handle a significant portion of the vehicle’s braking forces during deceleration. As a result, front axle hubs need to be designed to handle higher loads and provide sufficient strength and durability.

Rear Axle Hubs: Rear axle hubs primarily bear the weight of the vehicle’s rear end and support the differential and rear axle shafts. The braking forces on the rear axle hubs are typically lower compared to the front axle hubs. However, they still need to be robust enough to handle the forces generated during acceleration, deceleration, and cornering.

In summary, there are differences between front and rear axle hubs in terms of design and function. Front axle hubs are typically more complex and accommodate steering components and front-wheel drive systems, while rear axle hubs have a simpler design focused on supporting the rear axle and integrating with the brake system. Understanding these differences is important for proper maintenance and repair of the axle hubs in a vehicle.

axle hub

How often should axle hubs be inspected and replaced as part of routine vehicle maintenance?

Regular inspection and maintenance of axle hubs are crucial for ensuring the safe and efficient operation of a vehicle. The frequency of inspection and replacement may vary depending on several factors, including the vehicle’s make and model, driving conditions, and manufacturer’s recommendations. Here are some guidelines to consider:

  • Manufacturer’s recommendations: The first and most reliable source of information regarding the inspection and replacement intervals for axle hubs is the vehicle manufacturer’s recommendations. These can usually be found in the owner’s manual or the manufacturer’s maintenance schedule. It is essential to follow these guidelines as they are specific to your particular vehicle.
  • Driving conditions: If your vehicle is subjected to severe driving conditions, such as frequent towing, off-road use, or driving in extreme temperatures, the axle hubs may experience increased stress and wear. In such cases, more frequent inspections and maintenance may be necessary.
  • Visual inspection: It is a good practice to visually inspect the axle hubs during routine maintenance or when performing other maintenance tasks, such as changing the brakes or rotating the tires. Look for any signs of damage, such as leaks, excessive play, or worn-out components. If any abnormalities are detected, further inspection or replacement may be required.
  • Wheel bearing maintenance: The axle hubs house the wheel bearings, which are critical for the smooth rotation of the wheels. Some vehicles have serviceable wheel bearings that require periodic maintenance, such as cleaning and repacking with fresh grease. If your vehicle has serviceable wheel bearings, refer to the manufacturer’s recommendations for the appropriate maintenance intervals.
  • Unusual noises or vibrations: If you notice any unusual noises, such as grinding, humming, or clicking sounds coming from the wheels, or if you experience vibrations while driving, it could be an indication of a problem with the axle hubs. In such cases, immediate inspection and necessary repairs or replacement should be performed.

It’s important to note that the intervals for inspecting and replacing axle hubs can vary significantly between different vehicles. Therefore, it is recommended to consult the vehicle manufacturer’s recommendations to determine the specific maintenance schedule for your vehicle. Additionally, if you are unsure or suspect any issues with the axle hubs, it is advisable to have a qualified mechanic or automotive technician inspect and assess the condition of the axle hubs.

In summary, the frequency of inspecting and replacing axle hubs as part of routine vehicle maintenance depends on factors such as the manufacturer’s recommendations, driving conditions, visual inspections, wheel bearing maintenance requirements, and the presence of any unusual noises or vibrations. Following the manufacturer’s guidelines and promptly addressing any abnormalities will help ensure the proper functioning and longevity of the axle hubs.

axle hub

How do changes in wheel offset affect the angles and performance of axle hubs?

Changes in wheel offset can have a significant impact on the angles and performance of axle hubs. Here’s a detailed explanation:

Wheel offset refers to the distance between the centerline of the wheel and the mounting surface. It determines how far the wheel and tire assembly will be positioned in relation to the axle hub. There are three types of wheel offsets: positive offset, zero offset, and negative offset.

Here’s how changes in wheel offset can affect the angles and performance of axle hubs:

  • Camber Angle: Camber angle refers to the inward or outward tilt of the wheel when viewed from the front of the vehicle. Changes in wheel offset can impact the camber angle. Increasing positive offset or reducing negative offset typically results in more positive camber, while increasing negative offset or reducing positive offset leads to more negative camber. Improper camber angle can cause uneven tire wear, reduced traction, and handling issues.
  • Track Width: Wheel offset affects the track width, which is the distance between the centerlines of the left and right wheels. Wider track width can improve stability and cornering performance. Increasing positive offset or reducing negative offset generally widens the track width, while increasing negative offset or reducing positive offset narrows it.
  • Steering Geometry: Changes in wheel offset also impact the steering geometry of the vehicle. Altering the offset can affect the scrub radius, which is the distance between the tire contact patch and the steering axis. Changes in scrub radius can influence steering effort, feedback, and stability. It’s important to maintain the appropriate scrub radius for optimal handling and performance.
  • Wheel Bearing Load: Wheel offset affects the load applied to the wheel bearings. Increasing positive offset or reducing negative offset generally increases the load on the inner wheel bearing, while increasing negative offset or reducing positive offset increases the load on the outer wheel bearing. Proper wheel bearing load is crucial for their longevity and performance.
  • Clearance and Interference: Changes in wheel offset can also impact the clearance between the wheel and suspension components or bodywork. Insufficient clearance due to excessive positive offset or inadequate clearance due to excessive negative offset can lead to rubbing, interference, or potential damage to the axle hub, suspension parts, or bodywork.

It’s important to note that any changes in wheel offset should be done within the manufacturer’s recommended specifications or in consultation with knowledgeable professionals. Deviating from the recommended wheel offset can lead to adverse effects on the axle hub angles and performance, as well as other aspects of the vehicle’s handling and safety.

When modifying wheel offset, it is crucial to consider the overall impact on the vehicle’s suspension geometry, clearance, and alignment. It may be necessary to make corresponding adjustments to maintain proper alignment angles, such as camber, toe, and caster, to ensure optimal tire wear, handling, and performance.

In summary, changes in wheel offset can have a significant impact on the angles and performance of axle hubs. They can affect camber angles, track width, steering geometry, wheel bearing load, and clearance. It is important to adhere to manufacturer’s specifications and consult with knowledgeable professionals when considering changes in wheel offset to ensure proper alignment, optimal performance, and safe operation of the vehicle.

China Professional Automotive Parts Rear Axle Wheel Bearing Hub 512151 Br930145 for Buick Century 1997-2003   axle bearingChina Professional Automotive Parts Rear Axle Wheel Bearing Hub 512151 Br930145 for Buick Century 1997-2003   axle bearing
editor by CX 2024-04-12