China supplier Lr032113/Lr062654 Front Right CV Axle Shaft for Land Rover Freelander Lr2 2013-2016 cv axle replacement

Product Description

As a professional manufacturer for DRIVE Shaft, we have +800 items for all kinds of car, main suitable
for AMERICA & EUROPE market.

 

Our advantage:

 

1. Full range of products

2. MOQ qty: 5pcs/items

3. Delivery on time

4: Warranty: 1 YEAR

5. Develope new items: FREE

 

Brand Name

KOWA DRIVE SHAFT

Item name

  LR032113 LR062654 

Car maker

For LAND ROVER FREELANDER LR2 2013-2016

Moq

20pcs

Guarantee

12 months

sample

Available if have stock

Price

Send inquiry to get lastest price

BOX/QTY

1PCS/Bag 4PCS /CTNS

We have more drive shafts of models that have not been uploaded in time, such as: For Hyundai Mazda CZPT CZPT CZPT Honda Nissan… Please send an inquiry and we will solve your needs, click Contact Supplier, thank you.

For Japanese Car
for TOYOTA for TOYOTA
43420-57170 43420-57180 43410-0W081 43420-0W080
43410-57120 43420-57190 43410-0W091 43420-0W090
43410-57130 43420-57120 43410-0W100 43420-0W110
43410-57150 43420-02B10 43410-0W110 43420-0W160
43410-06221 43420-02B11 43410-0W140 43420-32161
43410-06231 43420-02B60 43410-0W150 43420-33250
43410-06460 43420-02B61 43410-0W180 43420-33280
43410-06570 43420-02B62 43410-12410 43420-48090
43410-06580 43420-06221 43410-33280 43420-48091
43410-066-90 43420-06231 43410-33290 43430OK571
43410-06750 43420-06460 43410-33330 66-5245
43410-06780 43420-06490 43410-48070 66-5247
43410-06A40 43420-06500 43410-48071 43420-57150
43410-06A50 43420- 0571 0 43410-0W061 43420-0W061
43410-07070 43420-06610 43410-0W071 43420-0W071
for Acura for LEXUS
44305STKA00 66-4198 43410-06200 43410-06480
44305STKA01 66-4261 43410-06450 43410-06560
44305SZPA00 66-4262 66-5265  
44306STKA00 66-4270 for MITSUBISHI
44306STKA01 66-4271 3815A309 3815A310
44306SZPA00      
for Honda for MAZDA
44571S1571 44306S3VA61 5L8Z3A428AB GG052550XD
44011S1571 44306S3VA62 5L8Z3A428DA GG052560XE
44305S2HN50 44306S9VA51 66-2090 GG362550XA
44305SCVA50 44306S9VA71 6L8Z3A428A YL8Z3A427AA
44305SCVA51 44306SCVA50 9L8Z3A427B YL8Z3A427BA
44305SCVA90 44306SCVA51 GG032550XD YL8Z3A428AA
44305SCVA91 44306SCVA90 GG042550XD YL8Z3A428BA
44305STXA02 44306SCVA91 GG042560XG ZC32550XA
44305SZAA01 44306STXA02    
44306S2H951 44306SZAA01    
44306SZAA11 44306SZAA01RM    
44306SZAA12 66-4213    
66-4214      
for Europe Car
for VOLKSWAGEN for VOLKSWAGEN
4885712AD 7B0407271B 7E0407271G 7LA407272C
4885713AF 7B0407272 7E0407271P 7LA4 0571 2CX
4881214AE 7B0407272E 7LA407271E  
7B0407271A      
for America Car
for CHRYSLER for MERCURY
4593447AA 557180AD 4F1Z3B437AA GG322560X
4641855AA 52114390AB 5L8Z3A428DB GG362560XA
4641855AC 5273546AC 66-2249 YL8Z3A427CA
4641856AA 66-3108 9L8Z3A427C YL8Z3A427DA
4641856AC 66-3109 9L8Z3A427D YL8Z3A427EA
4882517 66-3130 GG062550XD YL8Z3A427FA
4882518 66-3131 GG062560XE YL8Z3A428CA
4882519 66-3234 GG312560X ZZDA2560X
4882520 66-3518 ZZDA2560XC ZZDA2560XA
557130AB 66-3520 for RAM
66-3552 66-3522 4885713AD 55719AB
66-3553 66-3551 4881214AD 66-3404
66-3554 66-3639 55719AA 66-3740
68193908AB 66-3641 68571398AA  
for FORD for DODGE
1F0571400 E6DZ3V428AARM 4593449AA 7B0407272A
1F0571410 E8DZ3V427AARM 4641855AE 7B0407272B
1F2Z3B436AA E8DZ3V428AARM 4641855EE 7B0407272C
2F1Z3A428CA E90Y3V427AARM 4641856AD R4881214AE
2M5Z3B437CA E90Y3V428AARM 4641856AF RL189279AA
4F1Z3B437BA F0DZ3V427AARM 4885710AC 557180AG
5M6Z3A428AA F0DZ3V428AARM 4885710AE 5170822AA
5S4Z3B437AA F21Z3B437A 4885710AF 52114390AA
66-2005 F21Z3B437B 4885710AG 5273546AD
66-2008 F2DZ3B436A 4885711AC 5273546AE
66-2571 F2DZ3B436B 4885711AD 5273546AF
66-2084 F2DZ3B437A 4885712AC 5273558AB
66-2086 F2DZ3B437B 4885712AE 5273558AD
66-2095 F4DZ3B437A 4885712AG 5273558AE
66-2101 F57Z3B436BA 4885712AH 5273558AF
66-2143 F57Z3B437BA 4885713AC 4881214AC
6S4Z3B437BA F5DZ3A427BA 4885713AG 4881214AF
8S4Z3B437A F5DZ3A428AS 4885713AI 4881214AG
9L8Z3A427A F5DZ3B426D 4885713AJ 557130AA
E6DZ3V427AARM F5DZ3B436D 5273558AG 557180AE
YF1Z3A428RS F5DZ3B437B 66-3382 557180AF
YL8Z3A428DA F5TZ3B436A 66-3511 66-3514
YS4Z3B437BB GG032560XG 66-3759 66-3564
YS4Z3B437CB GG362550X    
YF1Z3A427L      
for CHEVROLET for JEEP
257191 26062613 4578885AA 5215710AA
22791460 4578885AB 5215711AB
26011961 4578885AC 5215711AB
26571730 2657189 4720380 5273438AC
2657165 66-1401 4720381 5273438AD
26058932 66-1438 5012456AB 5273438AE
26065719 88982496 5012457AB 5273438AG
for HUMMER 5066571AA 66-3220
1571204 595716 557120AB 66-3221
15886012 66-1417 557120AC 66-3298
for CADILLAC 557120AD 66-3352
88957151 66-1416 557120AE 66-3417
66-1009 66-1430 5189278AA 66-3418
66-1415 88957150 5189279AA 66-3419

 

 

 

 

 

 

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After-sales Service: 1 Year
Condition: New
Color: Black
Certification: ISO
Type: Drive Shaft
Application Brand: Lr032113 Lr062654
Samples:
US$ 300/Piece
1 Piece(Min.Order)

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Request Sample

Customization:
Available

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Customized Request

cv axle

Are there differences between constant velocity (CV) axles and universal joint (U-joint) axles?

Constant velocity (CV) axles and universal joint (U-joint) axles are two distinct types of axle designs commonly used in vehicles. Here’s an explanation of the differences between CV axles and U-joint axles:

1. Design and Function:

A CV axle consists of a shaft with two constant velocity joints at each end. These joints allow the axle to transmit power to the wheels while accommodating changes in angle and rotational speed. CV axles use a series of bearings and balls to provide smooth power transfer and maintain a constant velocity, hence the name. This design allows for flexibility in various driving conditions, including turning and suspension movement.

On the other hand, U-joint axles use universal joints to transmit power between the transmission or differential and the wheels. U-joints are mechanical connections that allow for angular movement between two shafts. They consist of a cross-shaped yoke and needle bearings that transmit torque while allowing for changes in angle. U-joint axles are commonly found in older vehicles, truck applications, and some off-road vehicles.

2. Articulation and Range of Motion:

CV axles are known for their superior articulation and range of motion. The constant velocity joints in CV axles can operate at higher angles, allowing for greater wheel travel and suspension articulation. This makes CV axles ideal for vehicles with independent suspension systems or those that require more significant wheel movement, such as front-wheel-drive and all-wheel-drive vehicles.

U-joint axles, while capable of transmitting torque, have more limited articulation capabilities compared to CV axles. The design of U-joints restricts the operating angle, making them better suited for applications with lower angles of operation, such as rear-wheel-drive vehicles with solid axles or trucks that typically have less suspension travel.

3. Reliability and Maintenance:

In terms of reliability and maintenance, CV axles are generally considered more durable and require less frequent maintenance compared to U-joint axles. The constant velocity joints in CV axles are enclosed in protective rubber boots, which help to keep dirt, debris, and moisture out. Regular inspection and maintenance of CV axle boots are necessary to prevent damage and ensure longevity. However, if the boots fail and allow contaminants inside, the CV joints can be prone to premature wear and failure.

U-joints, on the other hand, require periodic lubrication to maintain proper operation. They are exposed and require regular greasing to prevent dryness and wear. If not properly maintained, U-joints can develop play, wear out, and eventually fail, leading to driveline vibrations and potential damage to other drivetrain components.

4. Application and Vehicle Type:

The choice between CV axles and U-joint axles depends on the specific application and vehicle type. CV axles are commonly used in front-wheel-drive vehicles, all-wheel-drive vehicles, and some four-wheel-drive vehicles with independent suspension systems. They offer better articulation, smoother operation, and are more suitable for vehicles with higher angles of operation.

U-joint axles are found in various applications, including rear-wheel-drive vehicles, trucks, and some off-road vehicles with solid axles. They are often used in heavy-duty applications due to their robust design and ability to handle higher torque loads.

In summary, the main differences between CV axles and U-joint axles lie in their design, articulation capabilities, reliability, and application. CV axles are known for their superior articulation, smoother operation, and reduced maintenance, making them suitable for front-wheel-drive and all-wheel-drive vehicles. U-joint axles have more limited articulation, require periodic lubrication, and are commonly used in rear-wheel-drive vehicles, trucks, and some off-road applications.

cv axle

Can you explain the importance of proper CV axle lubrication and the best practices for it?

Proper CV axle lubrication is crucial for maintaining the performance, longevity, and reliability of CV axles. CV axles rely on lubrication to reduce friction, dissipate heat, and prevent premature wear or damage to the internal components. Here’s an explanation of the importance of proper CV axle lubrication and some best practices to ensure effective lubrication:

Importance of Proper Lubrication:

1. Friction Reduction: CV axles contain numerous moving parts, including CV joints and bearings, which are constantly in motion and subject to friction. Proper lubrication forms a protective film between these components, reducing friction and minimizing wear. This helps to prevent excessive heat generation and extends the lifespan of the axles.

2. Heat Dissipation: As CV axles rotate and transmit power, they generate heat. Lubrication plays a vital role in dissipating this heat and preventing the components from overheating. Effective heat dissipation helps maintain optimal operating temperatures, preventing the lubricant from breaking down and ensuring the longevity of the axles.

3. Protection Against Contaminants: CV axles operate in various environments and are exposed to contaminants such as dirt, dust, water, and road debris. Proper lubrication forms a protective barrier that helps prevent these contaminants from entering the CV joints and causing damage. It also helps to expel any contaminants that do find their way into the axle assembly, ensuring smooth operation and reducing the risk of premature failure.

Best Practices for CV Axle Lubrication:

1. Use Recommended Lubricant: Follow the manufacturer’s recommendations regarding the type of lubricant to be used for CV axles. Different vehicles may have specific requirements, and using the recommended lubricant ensures compatibility and optimal performance. The manufacturer’s specifications can usually be found in the vehicle’s owner’s manual or service documentation.

2. Schedule Regular Lubrication: Include CV axle lubrication as part of your routine maintenance schedule. Regular lubrication helps ensure that the axles are properly protected and function smoothly. The frequency of lubrication can vary depending on the vehicle make and model, so consult the manufacturer’s recommendations or the advice of a qualified mechanic.

3. Inspect CV Boots: The CV boots protect the CV joints and retain the lubricant. Regularly inspect the CV boots for cracks, tears, or leaks. Damaged boots can lead to lubricant loss and the ingress of contaminants, compromising the lubrication of the CV axles. If any damage is detected, the boots should be replaced promptly to prevent further issues.

4. Proper Grease Application: When lubricating CV axles, ensure that the grease is applied correctly. Follow the recommended quantity and method of application specified by the manufacturer. Over-greasing or under-greasing can lead to problems such as excess heat buildup or inadequate lubrication. It’s also essential to use high-quality grease that meets the required specifications.

5. Professional Maintenance: If you’re unsure about the proper lubrication practices or if you prefer professional assistance, it’s advisable to consult with a qualified mechanic or automotive technician. They have the expertise and knowledge to perform proper CV axle lubrication and can ensure that the job is done correctly.

By adhering to these best practices for CV axle lubrication, you can help maximize the performance, durability, and lifespan of your CV axles, reducing the risk of premature wear or failure.

cv axle

What are the common causes of CV axle failure, and how can I prevent them?

CV axle failure can occur due to various factors, and understanding the common causes can help in preventing premature failures. Here’s an explanation of the common causes of CV axle failure and how you can prevent them:

1. Lack of lubrication:

Insufficient or contaminated lubrication is a common cause of CV axle failure. The CV joints and bearings require proper lubrication to reduce friction and prevent excessive wear. Regular maintenance, such as checking and replacing the CV axle grease as recommended by the vehicle manufacturer, can help prevent this issue. It’s important to use the correct type and amount of grease specified for your vehicle.

2. Torn or damaged CV boots:

The CV boots protect the CV joints from dirt, debris, and moisture, which can cause premature wear and damage. Torn or damaged CV boots expose the CV joints to these harmful elements, leading to accelerated wear and eventual failure. Regular inspection of the CV boots and prompt replacement if any damage is noticed can prevent this issue. Additionally, avoiding driving over rough terrain or obstacles that can damage the boots can help extend the lifespan of the CV axles.

3. Excessive torque or load:

Subjecting the CV axles to excessive torque or load can lead to premature failure. This can occur due to aggressive driving, sudden acceleration, or heavy towing loads. It’s important to operate the vehicle within its recommended limits and avoid putting excessive stress on the drivetrain components. Being mindful of your driving habits and avoiding abrupt maneuvers can help prevent CV axle failure caused by excessive torque or load.

4. Impact damage:

CV axles are susceptible to impact damage, especially when driving over potholes, speed bumps, or hitting curbs. Such impacts can cause fractures, bends, or misalignments in the CV axles, leading to failure over time. To prevent impact damage, it’s essential to drive cautiously and avoid rough road conditions whenever possible. Maintaining proper tire pressure and ensuring that the suspension components are in good condition can also help minimize the risk of impact damage.

5. Lack of maintenance:

Neglecting regular maintenance can contribute to CV axle failure. Routine inspections, including checking for signs of damage, leaks, or excessive wear, can help detect early warning signs of CV axle problems. Timely replacement of worn-out or damaged CV axles and addressing any issues promptly can prevent further damage to the drivetrain. Following the recommended maintenance schedule provided by the vehicle manufacturer is crucial for preventing CV axle failure due to neglect.

6. Environmental factors:

Environmental factors such as extreme temperatures, road salt, and corrosive substances can also contribute to CV axle failure. Exposure to harsh environments can accelerate the deterioration of CV axle components. Regular cleaning and inspection of the CV axles to remove any corrosive substances and protecting them with appropriate coatings or sealants can help mitigate the effects of environmental factors.

By understanding and addressing these common causes, you can take proactive measures to prevent CV axle failure. Regular maintenance, cautious driving, and prompt repairs are key to ensuring the longevity and reliability of the CV axles in your vehicle.

China supplier Lr032113/Lr062654 Front Right CV Axle Shaft for Land Rover Freelander Lr2 2013-2016   cv axle replacementChina supplier Lr032113/Lr062654 Front Right CV Axle Shaft for Land Rover Freelander Lr2 2013-2016   cv axle replacement
editor by CX 2024-04-25

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