Product Description

Product Description

Complete products, one-stop purchasing, saving your cost and time.
Inventory advantage, stable supply, short delivery time.
High-quality original, made in China, there are more  many parts are in stock.
Install and test the products in Chinese market first, to ensure the quality.

Specifications     
  

Mounting Type Hydro Bearing
Dimension OEM Standard
Material Steel Elastomer
Weight 2Kg

Detailed Photos

Company Profile

About BBmart Auto Parts

Since establishment in 2005, BBmart Auto Parts has achieved in becoming 1 of the most trust-worthy automobile replacement parts distributors in the industry with Good Credibility, offering our customers a “One stop Shop” experience and constantly ensuring that we place our customers’ needs at the forefront, offering them Good service.We are not only renowned for our professionalism and comprehensive range of replacement products, but also offer our customers a competitive position with our Fair Price. Our manufacturers have passed and acquired various International certifications on safety and quality such as CAPA, Thatcham, E-Mark, SAE, ISO 9000/1, ISO 9002, TS 16949 MQVP and the SABS, thereby assuring Good Quality – Parts you can trust.

Good Credibility
Good Service
Good Quality
Fair Price

These define the way we work and allowed us to be professional to earn and build trust with our customers and suppliers. This trust fortifies our business relationships as partners and has created a CHINAMFG situation for the clients.

Our products have been sold over the world. Our diversified replacement product lines cover the Automotive Lamps, Automotive Body Parts, Suspension Parts, Electric Parts, Engine Parts and Accessories.

BBmart endeavours to understand and precisely respond to our customer’s diverse needs. Our vision is to be “The prime distributor for automotive replacement parts in China.” We are committed to work diligently to deliver best service, high quality and cost-effective products to our customers.
 

FAQ

Q1.How many years have your company dealt in autoparts?
A: We have been founded for 16 years now.

Q2. What is your company major products?
A: Our main products are Spark Plug, Brake Pad, Oil Fiter. Fuel Filter, Air Fiter, Engine Belt, Shock Absorber, Control Arm, Ball
Joint, Tie Rod End, Stabilizer Link Rod, Wheel Hub Bearing, C.v.joint, Car Light, ect.

Q3. Are you a factory or trading company?
A: We are Manufacturing and Trading and Supply Chain company.

Q4. What is the MOQ?
A: Normally we can supply any quantity if we have stock.

Q5. What is the delivery date?
A: It takes 5-7 days if there is stock, but takes about 30 days if there is no stock.

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After-sales Service: 2 Years Warranty
Condition: New
Color: Black
Samples:
US$ 80/Piece
1 Piece(Min.Order)

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Order Sample

Customization:
Available

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Customized Request

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Shipping Cost:

Estimated freight per unit.







about shipping cost and estimated delivery time.
Payment Method:







 

Initial Payment



Full Payment
Currency: US$
Return&refunds: You can apply for a refund up to 30 days after receipt of the products.

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How Do Manufacturers Ensure the Compatibility and Quality of Rear Drive Shafts?

Manufacturers employ several measures to ensure the compatibility and quality of rear drive shafts, which are crucial components in a vehicle’s drivetrain system. These measures involve rigorous design, testing, and production processes to meet industry standards and ensure reliable performance. Here’s a detailed explanation of how manufacturers ensure the compatibility and quality of rear drive shafts:

1. Design Specifications and Standards:

Manufacturers follow specific design specifications and standards when developing rear drive shafts. These specifications include parameters such as length, diameter, material selection, torque capacity, and operating conditions. Design guidelines provided by industry organizations, government regulations, and vehicle manufacturers play a crucial role in ensuring compatibility and performance. Adhering to these specifications helps manufacturers produce rear drive shafts that meet the requirements of various vehicle models and drivetrain configurations.

2. Computer-Aided Design (CAD) and Simulation:

Manufacturers use computer-aided design (CAD) software and simulation tools to create virtual models of rear drive shafts. CAD enables precise modeling of shaft geometry, joint types, and connection points. Simulation tools allow manufacturers to analyze the structural integrity, stress distribution, and performance characteristics of the drive shaft under different operating conditions. By simulating and optimizing the design virtually, manufacturers can identify potential issues, ensure compatibility, and optimize the performance of rear drive shafts before physical prototyping and production.

3. Material Selection and Quality Control:

Manufacturers carefully select materials for rear drive shafts to ensure compatibility and durability. High-strength alloys, such as steel or aluminum, are commonly used due to their excellent mechanical properties. The material selection process involves considering factors such as strength, weight, fatigue resistance, and corrosion resistance. Manufacturers also implement strict quality control measures to verify the quality and integrity of the materials used. This includes conducting material testing, such as mechanical testing and metallurgical analysis, to ensure that the selected materials meet the required specifications and performance standards.

4. Prototype Development and Testing:

Manufacturers develop physical prototypes of rear drive shafts for testing and validation purposes. Prototypes are manufactured using the finalized design and materials. They undergo a series of tests to evaluate their performance, including static and dynamic load testing, torsional strength testing, and fatigue testing. These tests help manufacturers assess the compatibility, strength, and durability of the rear drive shafts. By analyzing the test results, manufacturers can identify any design flaws, optimize the performance, and ensure that the drive shafts meet the required performance standards and safety regulations.

5. Manufacturing Processes and Quality Assurance:

Manufacturers employ precise manufacturing processes to ensure the quality and compatibility of rear drive shafts. Advanced machining techniques, such as CNC (Computer Numerical Control) machining, are used to achieve accurate dimensions and tolerances. Welding, heat treatment, and balancing processes are performed to enhance strength, structural integrity, and rotational balance. Quality assurance protocols are implemented throughout the manufacturing process to monitor and control the quality of each component and assembly stage. This includes inspections, dimensional checks, and non-destructive testing methods, such as ultrasonic testing or magnetic particle inspection, to detect any defects or inconsistencies.

6. Compliance with Standards and Certifications:

Manufacturers ensure that rear drive shafts comply with industry standards and certifications. These standards may include ISO (International Organization for Standardization) standards, SAE (Society of Automotive Engineers) standards, or specific vehicle manufacturers’ specifications. Compliance with these standards ensures that the rear drive shafts meet the required performance, safety, and compatibility criteria. Manufacturers undergo audits and certifications to demonstrate their adherence to these standards, providing assurance to customers and end-users about the quality and compatibility of their rear drive shafts.

7. Continuous Improvement and Customer Feedback:

Manufacturers strive for continuous improvement in the design, production, and quality of rear drive shafts. They actively seek feedback from customers, vehicle manufacturers, and industry experts to identify areas for improvement. This feedback helps manufacturers address compatibility issues, optimize performance, and incorporate new technologies and materials into their rear drive shafts. By continuously refining their processes and products, manufacturers ensure that rear drive shafts remain compatible with evolving vehicle technologies and meet the changing needs of the automotive industry.

In summary, manufacturers ensure the compatibility and quality of rear drive shafts through adherence to design specifications and standards, computer-aided design and simulation, careful material selection, prototype development and testing, precise manufacturing processes, compliance with standards and certifications, and a commitment to continuous improvement. These measures collectively ensure that rear drive shafts are compatible with a wide range of vehicle models, drivetrain configurations, and operating conditions. Additionally, they guarantee that rear drive shafts meet the required performance, safety, and quality standards, providing reliable and efficient operation in the vehicle’s drivetrain system.

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What Safety Precautions Should Be Followed When Working with Rear Drive Shafts?

Working with rear drive shafts requires adherence to specific safety precautions to minimize the risk of accidents, injuries, and damage to the vehicle or surrounding components. Here are detailed safety precautions that should be followed when working with rear drive shafts:

1. Wear Protective Gear:

Always wear appropriate personal protective equipment (PPE) when working with rear drive shafts. This includes safety glasses or goggles to protect your eyes from debris, gloves to safeguard your hands from sharp edges or moving parts, and sturdy footwear to provide foot protection in case of accidents or dropped tools.

2. Ensure Vehicle Stability:

Prioritize vehicle stability when working with rear drive shafts. Park the vehicle on a level surface and engage the parking brake. If necessary, use wheel chocks to prevent the vehicle from rolling. Additionally, if you are raising the vehicle using a jack or lift, ensure that it is securely supported with jack stands or appropriate lift points to prevent accidental movement or collapse.

3. Disconnect the Battery:

Before beginning any work on the rear drive shaft, disconnect the vehicle’s battery. This precaution helps prevent accidental engagement of the starter motor or other electrical components, reducing the risk of injury or damage during the maintenance or replacement process.

4. Release Tension on the Drivetrain:

Release tension on the drivetrain components before removing the rear drive shaft. If applicable, release tension on the parking brake, shift the transmission into neutral, and engage the wheel chocks. This step helps prevent unexpected movement of the vehicle or drivetrain components while working on the drive shaft.

5. Secure the Drive Shaft:

Prior to removing the rear drive shaft, ensure it is securely supported and immobilized. Use a drive shaft support fixture or a transmission jack to hold the drive shaft in place. This prevents the drive shaft from falling or causing injury when it is disconnected from the transmission or differential.

6. Mark Alignment Points:

Before disconnecting the rear drive shaft, mark alignment points on the drive shaft and the surrounding components. This will help ensure proper reinstallation and alignment during assembly. Marking the orientation of the drive shaft also aids in identifying any imbalance or misalignment issues that may arise during reinstallation.

7. Use Proper Tools and Techniques:

Always use the appropriate tools and techniques when working with rear drive shafts. Use socket wrenches, torque wrenches, and other specialized tools designed for drive shaft removal and installation. Avoid using improper tools or excessive force, as this can lead to damage or personal injury. Follow manufacturer guidelines and service manuals for specific procedures and torque specifications.

8. Handle with Care:

Handle the rear drive shaft with care to avoid unnecessary damage or injury. Avoid dropping or striking the drive shaft against hard surfaces, as this can cause dents, bends, or other structural damage. Additionally, be cautious of sharp edges or splines on the drive shaft that can cause cuts or abrasions. Always handle the drive shaft by gripping secure areas and wearing appropriate gloves for added protection.

9. Inspect for Damage and Wear:

Before reinstalling or replacing the rear drive shaft, thoroughly inspect it for any signs of damage or wear. Check for cracks, dents, corrosion, or loose components. Also, inspect the U-joints or CV joints for excessive play, rust, or damaged seals. If any issues are detected, it is advisable to replace the damaged parts or the entire drive shaft to ensure safe and reliable operation.

10. Follow Proper Reinstallation Procedures:

When reinstalling the rear drive shaft, follow proper procedures to ensure correct alignment and engagement with the transmission output shaft and differential input flange. Use the alignment marks made during disassembly as a guide. Tighten all fasteners to the recommended torque specifications, and ensure that all retaining clips or bolts are properly secured.

11. Test for Proper Functioning:

After completing the rear drive shaft work, conduct a thorough test to ensure proper functioning. Check for any abnormal vibrations, noises, or leaks during vehicle operation. If any issues are observed, reinspect the drive shaft installation and address the problem promptly.

12. Consult Professional Assistance if Needed:

If you are uncertain about any aspect of working with rear drive shafts or encounter difficulties during the process, it is advisable to seek professional assistance from a qualified technician or automotive service center. Theycan provide the necessary expertise and ensure the work is carried out safely and correctly.

By following these safety precautions when working with rear drive shafts, you can help protect yourself, prevent damage to the vehicle, and maintain a safe working environment. Remember to always prioritize safety and exercise caution throughout the entire process.

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What Benefits Do Properly Functioning Rear Drive Shafts Offer for Vehicle Dynamics?

A properly functioning rear drive shaft offers several benefits for vehicle dynamics. It plays a crucial role in transmitting power, distributing torque, and maintaining stability, which directly impact the performance and handling characteristics of a vehicle. Here’s a detailed explanation of the benefits that properly functioning rear drive shafts offer for vehicle dynamics:

1. Power Delivery:

A properly functioning rear drive shaft ensures efficient power delivery from the engine or transmission to the wheels. It facilitates the transfer of torque, generated by the engine, to the rear wheels, enabling propulsion and acceleration. A well-maintained rear drive shaft minimizes power losses and mechanical friction, allowing more power to reach the wheels, resulting in improved vehicle performance.

2. Balanced Traction:

The rear drive shaft, in conjunction with the rear differential, plays a key role in distributing torque between the rear wheels. This torque distribution ensures balanced traction, especially during acceleration and cornering. Properly functioning rear drive shafts help optimize power distribution, reducing the chances of wheel slippage and providing better grip and stability on various road surfaces.

3. Enhanced Stability:

Stability is a crucial aspect of vehicle dynamics, and rear drive shafts contribute to maintaining stability during various driving conditions. By enabling torque distribution to the rear wheels, the rear drive shaft helps prevent oversteer or understeer tendencies, particularly during cornering. It allows the rear wheels to better grip the road, enhancing the vehicle’s stability and control.

4. Improved Handling:

A properly functioning rear drive shaft contributes to improved handling characteristics of a vehicle. In rear-wheel drive (RWD) configurations, the rear drive shaft’s torque transmission to the rear wheels results in a more balanced weight distribution, with a bias towards the rear. This weight distribution enhances the vehicle’s handling by providing better traction and control, especially during cornering maneuvers.

5. Responsiveness:

Properly functioning rear drive shafts contribute to the overall responsiveness of a vehicle. They ensure prompt power delivery and torque transfer, allowing the vehicle to respond quickly to driver inputs. This responsiveness enhances the driving experience, providing a direct and engaging connection between the driver and the road.

6. Off-Road Capability:

For vehicles equipped with four-wheel drive (4WD) or all-wheel drive (AWD) systems, properly functioning rear drive shafts are essential for off-road capability. They enable power distribution to both the front and rear wheels, enhancing traction and control on challenging terrain. By maintaining proper torque transfer, rear drive shafts ensure that the vehicle can navigate rough surfaces, steep inclines, and other off-road obstacles with improved capability and confidence.

7. Drivetrain Efficiency:

Efficient power transmission through properly functioning rear drive shafts contributes to overall drivetrain efficiency. They minimize power losses, mechanical friction, and energy waste, allowing more power to reach the wheels. This not only enhances vehicle performance but also improves fuel efficiency and optimizes the utilization of available power.

In summary, properly functioning rear drive shafts offer several benefits for vehicle dynamics. They ensure efficient power delivery, balanced traction, enhanced stability, improved handling, responsiveness, off-road capability, and drivetrain efficiency. By maintaining and optimizing rear drive shaft performance, manufacturers and drivers can enhance the overall driving experience, vehicle performance, and handling characteristics.

China supplier CZPT Auto Spare Car Parts Factory Wholesale All Front Rear Left Right Drive Shafts for BMW X1 X2 X3 X4 X5 X6 X7 Z3 Z4 F20 F21 F22 F23 F30 F31 F32 F36 G01 G02  China supplier CZPT Auto Spare Car Parts Factory Wholesale All Front Rear Left Right Drive Shafts for BMW X1 X2 X3 X4 X5 X6 X7 Z3 Z4 F20 F21 F22 F23 F30 F31 F32 F36 G01 G02
editor by CX 2024-01-15