China supplier 3500lbs 5 on 4.50 Bolt Pattern Trailer Straight Beam Torsion Axles with Lubed Idler Hubs cv axle replacement

Product Description

3500lbs 5 on 4.50 Bolt Pattern Trailer Straight Beam Torsion Axles with Lubed Idler Hubs
A wide range of load capacity according to trailer requirements. Suitable for fitment to and use on all types of trailers. Self-contained and easily fitted to the trailer chassis. Fitted with a bolt-in replaceable stub axle. Galvanized or electro zinc plated for protection against corrosion.

Part Number Hub Type Capacity P.C.D. HUB Face (TR) Mounting Bracket Start Angle Finish
TA1100FN Idler Hub 1100 lbs 4-4.0″ Customized Customized various Black/Galv.
TA1750FN Idler Hub 1750 lbs 4-4.0″ Customized Customized various Black/Galv.
TA2200FN Idler Hub 2200 lbs 4-4.0″ Customized Customized various Black/Galv.
TA3500FN Idler Hub 3500 lbs 5-4.5″ Customized Customized various Black/Galv.
TA5200FN Idler Hub 5200 lbs 6-5.5″ Customized Customized various Black/Galv.
TA7000FN Idler Hub 7000 lbs 6-5.5″ Customized Customized various Black/Galv.

1) Do you have factory?
CZPT :
Yes, we have our own factory, own engineers, we can meet custom’s unique requirement.

2) Do you provide sample? Free or charge?
CZPT :
Sample can be submitted for clients check and approval ; Normal   sample will be take cost and can be consider to return back since order be placed.

3)   What is your MOQ?
CZPT :
MOQ 100 for trailer axles
MOQ 3000 for trailer axles parts assembly

4)   Can you manufacture the parts according to our size?
CZPT :
Depend on make tooling we can support your to be achieved your fixed   request size   for items.

5)   What is your term of payment?
CZPT :
Normally for bulk  TT., Irrevocable L/C at sight  will be workable.
For samples , Paypal can be accept.

6)   How long is your delivery time?
CZPT :
Normal 30 working days for delivery ;
CZPT time be about 35-40 working days.

7) Can I delivery the goods from other supplier to your factory? Then load together?
CZPT :
Sure ,we can accept and support .
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After-sales Service: 1 Year Under Regular Opertion
Condition: New
Axle Number: 1,2,3
Application: Trailer
Certification: ISO
Material: Steel
Customization:
Available

|

Customized Request

beam axle

Are there potential challenges or limitations to using beam axles in vehicles?

Using beam axles in vehicles has both advantages and disadvantages. It’s important to consider the challenges and limitations associated with beam axles:

1. Ride Quality:

Beam axles are generally stiffer than independent suspension systems. This stiffness can lead to a less comfortable ride on smooth or well-paved roads, as they transmit more road imperfections and vibrations to the passengers. Passengers may perceive this as a limitation in terms of ride comfort.

2. Limited Articulation:

Beam axles have limited articulation. When one wheel encounters a bump or obstacle, the other wheel is affected as well. This can result in a bumpier ride compared to independent suspension systems, where each wheel can move independently to absorb shocks. Off-road vehicles may experience challenges in maintaining traction on rough terrains due to this limitation.

3. Reduced Traction in Some Scenarios:

Beam axles can experience reduced traction in certain scenarios, such as when one wheel loses contact with the ground. In off-road situations, this can limit the vehicle’s ability to traverse uneven terrain, especially when compared to independent suspension systems that allow each wheel to react independently to ground conditions.

4. Challenging Maneuverability:

Maneuverability can be a limitation in vehicles with beam axles. The stiffness and design of beam axles can make it harder to navigate tight spaces or execute sharp turns. This can be a drawback, especially in urban environments or when parking in confined areas.

5. Weight Distribution:

Proper weight distribution is crucial for vehicle stability. Beam axles, while offering even weight distribution between wheels on the same axle, may not provide the same level of precision in weight distribution as independent suspension systems. This can affect handling and stability in some situations.

6. Limited Ride Comfort on Smooth Roads:

On smooth and well-paved roads, solid beam axles may lead to reduced ride comfort due to their stiffness. Passengers may experience a more jarring ride, and the vehicle may struggle to absorb minor road imperfections.

7. Noise and Vibration:

Beam axles can transmit more noise and vibration from the road to the vehicle’s occupants. This can result in a less refined and quieter cabin environment compared to vehicles with independent suspension systems.

8. Suspension Tuning Challenges:

Designing the suspension components and tuning the shock absorbers for vehicles with beam axles can be challenging. Manufacturers must strike a balance between load-carrying capacity and ride comfort. Achieving an ideal balance can be difficult and may require compromises.

9. Vehicle-Specific Considerations:

The limitations of beam axles can vary depending on the vehicle’s intended use and design. While some limitations may be acceptable in off-road or heavy-duty applications, they may not be suitable for passenger cars or vehicles designed for urban commuting.

Summary:

Beam axles offer advantages in terms of durability and load distribution, but they also come with limitations related to ride comfort, maneuverability, and traction in certain scenarios. Vehicle manufacturers must carefully consider these limitations and weigh them against the specific needs and intended use of the vehicle.

beam axle

How do beam axles contribute to the load-carrying capacity of vehicles?

Beam axles play a crucial role in enhancing the load-carrying capacity of vehicles, especially in heavy-duty and commercial applications. Their design and characteristics contribute to this capacity in several ways:

1. Weight Distribution:

Beam axles are known for their ability to evenly distribute the weight of the vehicle and its cargo. This even distribution of weight helps maintain stability and balance, preventing overloading of a specific wheel or axle. In heavy-duty trucks and buses, this balanced weight distribution is vital to ensure safe and efficient transportation of goods and passengers.

2. Load-Bearing Capacity:

Beam axles are engineered to handle heavy loads. Their robust construction and materials are chosen to withstand the stress and weight of cargo. This load-bearing capacity is critical for commercial vehicles that carry substantial payloads, such as delivery trucks, construction vehicles, and agricultural equipment.

3. Durability and Resistance:

Heavy-duty and commercial vehicles are exposed to challenging conditions and road surfaces. Beam axles are designed to be durable and resistant to damage from road impacts, rough terrain, and heavy loads. This durability ensures that the axles can maintain their load-carrying capability over time, reducing the need for frequent maintenance or repairs.

4. Support for Trailers:

Beam axles are commonly used in trailers and semi-trailers, where they provide support for the weight of the trailer and its cargo. This support is essential for maintaining stability and preventing issues like trailer sway. The load-bearing capacity of beam axles is instrumental in safely transporting goods and materials on the road.

5. Simplicity and Maintenance:

The straightforward design of beam axles simplifies maintenance and reduces downtime. This is particularly important in commercial applications where minimizing maintenance and maximizing uptime are priorities. The ease of maintenance helps ensure that the axles continue to contribute to the load-carrying capacity of the vehicle throughout their service life.

6. Customization:

In some cases, heavy-duty vehicles with beam axles can be customized to accommodate specific cargo and load requirements. This may involve adjusting the suspension components and optimizing the vehicle’s load-carrying capability based on the intended use.

Summary:

Beam axles are a fundamental component in enhancing the load-carrying capacity of vehicles, particularly in heavy-duty and commercial applications. Their ability to distribute weight evenly, handle heavy loads, resist damage, and simplify maintenance contributes to the overall efficiency and effectiveness of these vehicles in transporting goods, passengers, and cargo.

beam axle

Can you explain the role of a beam axle in a vehicle’s stability and handling?

A beam axle, also known as a solid axle or live axle, plays a significant role in a vehicle’s stability and handling, albeit with some trade-offs compared to independent suspension systems. Here’s an explanation of its role:

Stability:

  • 1. Load Distribution: Beam axles contribute to even load distribution between the two wheels on the same axle. This helps maintain stability, especially when the vehicle is carrying heavy loads or towing trailers. It prevents one wheel from becoming excessively loaded, which can lead to uneven tire wear and instability.
  • 2. Support for Heavy Loads: In applications that require carrying substantial weight, such as commercial trucks and heavy-duty vehicles, beam axles provide the necessary structural support. This ensures that the vehicle remains stable and can handle the load safely.
  • 3. Rugged Terrain: In off-road and 4×4 vehicles, the solid construction of beam axles helps maintain stability and control on rough and uneven terrain. The axle’s ability to flex and maintain contact with the ground is crucial for off-road performance.

Handling:

  • 1. Simplified Handling: Beam axles provide simplified handling characteristics. When both wheels on the same axle move together, it can result in predictable and straightforward handling, making them suitable for certain applications.
  • 2. Improved Traction (Off-Road): In off-road vehicles, the ability of both wheels on a beam axle to move in unison enhances traction. When one wheel loses grip, the other compensates by maintaining contact with the terrain, increasing off-road capabilities.
  • 3. Predictable Response: Vehicles with beam axles tend to provide a predictable response to steering inputs and road conditions, which can be an advantage in specific scenarios.

Limitations: While beam axles offer stability and simplified handling, they come with some limitations that can affect overall vehicle dynamics:

  • 1. Reduced Comfort: On uneven road surfaces, the simultaneous movement of both wheels on a beam axle can result in a less comfortable ride due to the transmission of bumps and imperfections directly to the vehicle’s cabin.
  • 2. Limited Handling Precision: Beam axles may result in less precise handling, especially in high-speed or cornering situations. The interconnected movement of wheels can lead to less agility and stability in such scenarios.
  • 3. Reduced Adaptability: The handling characteristics of vehicles with beam axles are less adaptable to a wide range of road conditions compared to vehicles with independent suspension, which can adjust each wheel independently to changing terrain.

In summary, the role of a beam axle in a vehicle’s stability and handling is to provide even load distribution, support heavy loads, and maintain control in specific situations. However, this comes at the cost of reduced ride comfort and handling precision, making beam axles more suitable for certain applications, such as heavy-duty trucks, off-road vehicles, and scenarios where simplicity and load-carrying capacity are prioritized over comfort and precision.

China supplier 3500lbs 5 on 4.50 Bolt Pattern Trailer Straight Beam Torsion Axles with Lubed Idler Hubs   cv axle replacementChina supplier 3500lbs 5 on 4.50 Bolt Pattern Trailer Straight Beam Torsion Axles with Lubed Idler Hubs   cv axle replacement
editor by CX 2024-02-16

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