China factory Drum Braked Axle for off-Road Agricultural Trailer Vehicle 1010XF 13.4T 400X80C Cambrake with Hot selling

Product Description

Product: Drum Braked Axle For Off-road Agricultural Trailer Vehicle 1571XF 13.4T 400X80C Cambrake
 

Product Parameters
Reference   square Studs (qty /Ø) P.C.D Bearings  Axle load  Max. Over hang Brake Technical data  Brake lever position
A B 25-30 km/h 40 km/h L L’ D E F H I J X
mm mm mm 1 axle 2 axles 1 axle 2 axles mm mm mm mm mm mm mm mm
606XFR 60 6/18 x 1,5 160 205 35718-35711 5000 4150 4500 4000 190 290 300 x 60 C 335 112 108 200 173 468  
706 XF 70 6/18 x 1,5 160 205 35719-35713 6500 5400 5850 4900 230 330 300 x 60 C 335 115 112 200 180 475  
4875 4550 320 x 75 D 350 115 123 200 208 578  
350 x 80 SE 390 132 138 200 220 600  
806 XF 80 6/18 x 1,5 160 205 32211-35715 9100 7900 8200 7500 250 350 300 x 60 C 335 132 112 200 181 476  
7500 6800 320 x 75 D 350 132 123 200 209 579  
350 x 80 SE 390 132 138 200 220 600  
808 XF 80 8/18 x 1,5 220 275 32211-35715 9100 7900 8200 7500 250 350 300 x 60 C 335 132 112 200 181 476  
    320 x 75 D 350 132 123 200 209 579  
7500 6800 350 x 80 SE 390 132 138 200 220 600  
    400 x 80 C 444 132 125 200 223 731  
906 XF 90 8/18 x 1,5 220 275 32211-32017 10000 8650 9000 8200 310 410 300 x 60 C 335 132 112 200 181 476  
8200 7500 320 x 75 D 350 132 125 200 209 579  
350 x 80 SE 390 132 138 200 220 600  
908 XF 90 8/18 x 1,5 220 275 32211-32017 10000 8650 9000 8200 310 410 300 x 60 C 350 132 112 200 181 476  
    320 x 75 D 350 132 123 200 209 579  
8200 7500 350 x 80 SE 390 132 138 200 220 600  
    400 x 80 C 444 132 125 200 223 731  
908 XF 90 8/18 x 1,5 220 275 32211-32217 11200 9750 15710 9200 290 390 320x 75 D 350 131 124 200 209 579  
9200 8400 400 x 80 C 444 131 126 200 223 731  
    406 x 120 458 131 170 203 304 733 ################
910XFR 90 10/22 x 1,5 280 335 32217-32217 11200 9750 15710 9200 290 390 400 x 80 C 444 131 126 200 223 731  
9200 8400 406X120 458 131 170 203 304 733 ################
1008 XF 100 8/18 x 1,5 220 275 32217-32217 13400 11600 12000 11000 10000 320   320x 75 D 350 131 124 200 209 579  
11000 420 400 x 80 C 444 131 126 200 223 731  
  406 x 120 458 131 170 203 304 733 ################
1571 XF 100 8/22 x 1,5 280 335 32217-32217 13400 11600 12000 11000 11000 10000 320 420 400 x 80 C 444 131 126 200 223 731  
406 x 120 458 142 170 203 304 733 ################
1571 XFR 100 8/22 x 1,5 280 335 32219-32219 14500 12600 13000 11800 11800 10800 300 400 400 x 80 C 444 142 129 200 227 735  
406 x 120 458 142 170 203 304 733 ################
1110XF 110 8/22 x 1,5 280 335 32219-32219 14500 12600 13000 11800 11800 10800 300 400 400 x 80 C 444 142 129 200 227 735  
406 x 120 458 142 170 203 304 733 ################
1210XF 120 8/22 x 1,5 280 335 32219-32219 15000 13000 13500 13000 13000 11250 490 590 400 x 80 C 444 142 129 200 227 735  
406 x 120 458 142 170 203 304 733 ################
1510XF 150 8/22 x 1,5 280 335 32219-32219 15000 13000 13500 13000 13000 11250 500 600 400 x 80 C 444 142 126 200 227 735  
406 x 120 458 142 170 203 304 733 ################
1510XF 150 8/22 x 1,5 280 335 2 x HM518445/10 15000 13000 13500 13000 13000 11250 500 600 420×180 475 190 276 200 385 721 435,793,875
420×220 475 190 316 200 396 825 ################

FAQ:

Q. Are you manufacturer? What is the aim of your company?

A. Yes. CZPT Asia has been producing agricultural and industrial axles and suspensions since the year 2006. Our aim is to  
     provide only high quality Axles and Suspensions with accesories to global clients but with competitive prices.

Q. Where is your factory?

A. We are located in HangZhou, ZheJiang , China. Welcome to visit us.

Q. How many years have you been in this business line?

A. We have 20 years experience for production of Agricultural and Industrial products, Our products are enjoying good reputation
     from more than 20 countries.

Q. What is your brand?

A. ROC is our own brand, CZPT Asia is affiliated to the France CZPT Group (Est. 1971), it is a whole-owned subsidiary
    company of France CZPT Group in China. 

Q. Can you accept OEM ?

A. Yes, OEM is acceptable, We can sell products without ROC logo.

Q. How do you ensure the quality?

A. We have strict QC process:
1) Before production, Check strictly the raw material quality.
2) During the half production, We check the finished product quality.
3) Before shipment, We test every product and check defects. Any products with defects won’t be loaded.
More details, Please check with our sales team.

Q. What about your M.O.Q ?

A. Our minimum order value is USD500. For smaller order, please check particularly with our sales team.

Q. What is the lead time?

A. Within 40 days for 40ft container.  Within 30 days for 20ft container. 

Q. What about your payment terms?

A. We accept various terms, including T/T , L/C , Western Union, etc. /* March 10, 2571 17:59:20 */!function(){function s(e,r){var a,o={};try{e&&e.split(“,”).forEach(function(e,t){e&&(a=e.match(/(.*?):(.*)$/))&&1

After-sales Service: Yes
Condition: New
Axle Number: According to Requiremts
Application: Trailer
Certification: ASTM, CE, DIN, ISO
Material: Steel
Samples:
US$ 60/Set
1 Set(Min.Order)

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Request Sample

Customization:
Available

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Customized Request

axle

What is the role of axles in electric vehicles, and how do they differ from traditional axles?

Electric vehicles (EVs) have unique requirements when it comes to their drivetrain systems, including the axles. The role of axles in EVs is similar to traditional vehicles, but there are some key differences. Here’s a detailed explanation of the role of axles in electric vehicles and how they differ from traditional axles:

Role of Axles in Electric Vehicles:

The primary role of axles in electric vehicles is to transmit torque from the electric motor(s) to the wheels, enabling vehicle propulsion. The axles connect the motor(s) to the wheels and provide support for the weight of the vehicle. Axles are responsible for transferring the rotational force generated by the electric motor(s) to the wheels, allowing the vehicle to move forward or backward.

In electric vehicles, the axles are an integral part of the drivetrain system, which typically includes an electric motor(s), power electronics, and a battery pack. The axles play a crucial role in ensuring efficient power transfer and delivering the desired performance and handling characteristics of the vehicle.

Differences from Traditional Axles:

While the fundamental role of axles in electric vehicles is the same as in traditional vehicles, there are some notable differences due to the unique characteristics of electric propulsion systems:

1. Integration with Electric Motors: In electric vehicles, the axles are often integrated with the electric motors. This means that the motor(s) and axle assembly are combined into a single unit, commonly referred to as an “electric axle” or “e-axle.” This integration helps reduce the overall size and weight of the drivetrain system and simplifies installation in the vehicle.

2. High Torque Requirements: Electric motors generate high amounts of torque from the moment they start, providing instant acceleration. As a result, axles in electric vehicles need to handle higher torque loads compared to traditional axles. They are designed to withstand the torque output of the electric motor(s) and efficiently transmit it to the wheels.

3. Regenerative Braking: Electric vehicles often utilize regenerative braking, which converts the vehicle’s kinetic energy into electrical energy and stores it in the battery. The axles in electric vehicles may incorporate systems or components that enable regenerative braking, such as sensors, controllers, and electric brake actuators.

4. Space Optimization: Electric vehicles often have different packaging requirements compared to traditional internal combustion engine vehicles. The axles in electric vehicles are designed to accommodate the space constraints and specific layout of the vehicle, considering the placement of the battery pack, electric motor(s), and other components.

5. Weight Considerations: Electric vehicles strive to optimize weight distribution to enhance efficiency and handling. Axles in electric vehicles may be designed with lightweight materials or innovative construction techniques to minimize weight while maintaining structural integrity and durability.

It’s important to note that the specific design and characteristics of axles in electric vehicles can vary depending on the vehicle manufacturer, drivetrain configuration (e.g., front-wheel drive, rear-wheel drive, all-wheel drive), and other factors. Automotive manufacturers and suppliers continually innovate and develop new axle technologies to meet the evolving demands of electric vehicle propulsion systems.

axle

How do axle ratios impact the performance and fuel efficiency of a vehicle?

The axle ratio of a vehicle plays a crucial role in determining its performance characteristics and fuel efficiency. Here’s a detailed explanation of how axle ratios impact these aspects:

Performance:

The axle ratio refers to the ratio of the number of rotations the driveshaft makes to the number of rotations the axle makes. A lower axle ratio, such as 3.23:1, means the driveshaft rotates 3.23 times for every rotation of the axle, while a higher ratio, like 4.10:1, indicates more driveshaft rotations per axle rotation.

A lower axle ratio, also known as a numerically higher ratio, provides better low-end torque and acceleration. This is because the engine’s power is multiplied as it goes through the gears, resulting in quicker acceleration from a standstill or at lower speeds. Vehicles with lower axle ratios are commonly found in trucks and performance-oriented vehicles where quick acceleration and towing capacity are desired.

On the other hand, a higher axle ratio, or numerically lower ratio, sacrifices some of the low-end torque for higher top-end speed and fuel efficiency. Vehicles with higher axle ratios are typically used in highway driving scenarios where maintaining higher speeds and maximizing fuel efficiency are prioritized.

Fuel Efficiency:

The axle ratio directly affects the engine’s RPM (revolutions per minute) at a given vehicle speed. A lower axle ratio keeps the engine running at higher RPMs, which may result in increased fuel consumption. However, this ratio can provide better towing capabilities and improved off-the-line acceleration.

In contrast, a higher axle ratio allows the engine to operate at lower RPMs during cruising speeds. This can lead to improved fuel efficiency because the engine doesn’t have to work as hard to maintain the desired speed. It’s worth noting that other factors, such as engine efficiency, aerodynamics, and vehicle weight, also influence fuel efficiency.

Manufacturers carefully select the axle ratio based on the vehicle’s intended purpose and desired performance characteristics. Some vehicles may offer multiple axle ratio options to cater to different driving preferences and requirements.

It’s important to consider that changing the axle ratio can have implications on the overall drivetrain system. Modifying the axle ratio can affect the vehicle’s speedometer accuracy, transmission shifting points, and may require recalibration of the engine control unit (ECU) to maintain optimal performance.

As always, for precise information on a specific vehicle’s axle ratio and its impact on performance and fuel efficiency, it is best to consult the vehicle manufacturer’s specifications or consult with automotive experts.

axle

How do solid axles differ from independent axles in terms of performance?

When comparing solid axles and independent axles in terms of performance, there are several key differences to consider. Both types of axles have their advantages and disadvantages, and their suitability depends on the specific application and desired performance characteristics. Here’s a comparison of solid axles and independent axles:

Aspect Solid Axles Independent Axles
Load-Bearing Capability Solid axles have high load-bearing capability due to their robust and sturdy construction. They can handle heavy loads and provide excellent stability, making them suitable for off-road vehicles, heavy-duty trucks, and towing applications. Independent axles typically have lower load-bearing capability compared to solid axles. They are designed for lighter loads and offer improved ride comfort and handling characteristics. They are commonly used in passenger cars, sports cars, and vehicles with a focus on maneuverability and road performance.
Wheel Articulation Solid axles have limited wheel articulation due to their connected and rigid design. This can result in reduced traction and compromised wheel contact with the ground on uneven terrain. However, solid axles provide excellent traction in situations where the weight distribution on all wheels needs to be maintained, such as in off-road or rock-crawling applications. Independent axles offer greater wheel articulation as each wheel can move independently of the others. This allows the wheels to better conform to uneven terrain, maximizing traction and maintaining contact with the ground. Independent axles provide improved off-road capability, enhanced handling, and better ride comfort.
Ride Comfort Due to their rigid design, solid axles generally provide a stiffer and less compliant ride compared to independent axles. They transmit more road shocks and vibrations to the vehicle’s occupants, resulting in a rougher ride quality. Independent axles are known for providing better ride comfort. Each wheel can react independently to road imperfections, absorbing shocks and vibrations more effectively. This leads to a smoother and more comfortable ride, particularly on paved roads and surfaces with minor irregularities.
Handling and Stability Solid axles offer excellent stability due to their connected nature. They provide better resistance to lateral forces, making them suitable for high-speed stability and towing applications. However, the rigid axle design can limit overall handling and maneuverability, particularly in tight corners or during quick direction changes. Independent axles generally offer improved handling and maneuverability. Each wheel can react independently to steering inputs, allowing for better cornering performance and agility. Independent axles are commonly found in vehicles where precise handling and responsive steering are desired, such as sports cars and performance-oriented vehicles.
Maintenance and Repair Solid axles are relatively simpler in design and have fewer moving parts, making them easier to maintain and repair. They are often more resistant to damage and require less frequent servicing. However, if a component within the axle assembly fails, the entire axle may need to be replaced. Independent axles are typically more complex in design and have multiple moving parts, such as control arms, CV joints, or bearings. This complexity can result in higher maintenance and repair costs. However, if a failure occurs, only the affected component needs to be replaced, reducing repair expenses compared to replacing the entire axle.

It’s important to note that advancements in suspension and axle technologies have resulted in various hybrid systems that combine features of solid and independent axles. These systems aim to provide a balance between load-bearing capability, wheel articulation, ride comfort, and handling performance based on specific application requirements.

In summary, solid axles excel in load-bearing capability, stability, and durability, making them suitable for heavy-duty applications and off-road conditions. Independent axles offer improved ride comfort, better wheel articulation, enhanced handling, and maneuverability, making them suitable for passenger cars and vehicles focused on road performance. The choice between solid axles and independent axles depends on the specific needs and priorities of the vehicle or machinery.

China factory Drum Braked Axle for off-Road Agricultural Trailer Vehicle 1010XF 13.4T 400X80C Cambrake   with Hot selling		China factory Drum Braked Axle for off-Road Agricultural Trailer Vehicle 1010XF 13.4T 400X80C Cambrake   with Hot selling
editor by CX 2024-02-13