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China high quality Front Drive Axle Half Shaft for CHINAMFG Truck Parts HD90009420019/HD90009420020/81.36402.6328/HD9100942006

Product Description

Original Factory Front Drive Axle Shaft Half Shaft For CZPT Truck Parts HDHD81.36402.6328 HD

 

Detailed Photos

 

Product advantages & features

(1) Accessory products of the truck, the product quality is stable and reliable.
(2) Forged with 42CrMo material and heat treated and tempered for 32 degrees, so that the half shaft has stronger toughness and is not easy to break and bend.
(3) After the bend is adjusted, the sandblasting process is carried out to make the appearance of the half shaft more fine.
(4) Processed in the machining center, ensure that the products have rigorous dimensional coordinates to ensure 100% qualified rate of products.
(5) Products are inspected 1 by 1 and delivered out of the warehouse, with unified laser identification to ensure product traceability.
(6) Various sizes of axle shafts can be customized to meet customer needs.
(7) The unified brand carton, inner bag and integral foam packaging, which is strong and beautiful.

Factory Show

More Products

Truck Model Sinotruk, Shacman, CZPT Auman, CZPT Xihu (West Lake) Dis., Xihu (West Lake) Dis.feng, Xihu (West Lake) Dis.feng Liuqi Balong, North BENZ( BEIBEN), C&C, JAC, etc.
Product catalogue Axle Wheel Assembly
Differential Assembly
Main Reducer Assembly
Inner Ring Gear& Bracket
Basin Angle Gear/ Bevel Gear
Axle Shaft/ Half Shaft & Through Shaft
Axle Housing& Axle Assembly
Steering knuckle & Front Axle
Gear
Brake Drum& Wheel Hub
Flange
Bearing
Main Reducer Housing
Oil Seal Seat
Nut& Shim Series
Brake Backing Plate
Chassis Support Products Leaf Spring Bracket
Drop Arm Series
Bracket Series
Leaf Spring Shackle Series
Balanced Suspension Series Balance Shaft Assembly
Balance Shaft Housing
Axle Spring Seat
Thrust Rod
Balance Shaft Parts
Shock Absorber Series Shock Absorber
Shock Absorbing Airbag
Steering System Power Steering Pump
Power Steering Gear
Rubber Products Oil Seal
Rubber Support
Thrust Rod Rubber Core
Truck Belt
Engine support
Other
Clutch Series Clutch Pressure Plate
Clutch Disc
Flywheel Assembly
Flywheel Ring Gear
Adjusting Arm Series  

 

Packaging & Shipping

Function

The half shaft of a car is the transmission shaft. The car needs to turn after driving. The rotation of wheels on both sides is different. One side is faster and the other side is slower, which requires a differential on the transmission shaft. The differential is a device that makes the wheels on both sides rotate at different speeds. The half shaft is connected to the differential and then to the wheels.
The ends of each half axle are respectively connected with the wheels on its side and the differential. The torque and speed distributed by the differential are transmitted to the wheels to drive the wheels to rotate. The speed transmitted from the half shaft of general construction machinery such as loaders and cranes needs to be further decelerated by the wheel reducer to increase the torque and make the wheels have stronger driving force. The wheel reducer is the planetary gear reducer.

Honor Certificate

FAQ

Q1. Are you a factory or trading company? 
We are a factory integrating research, development, production and sales.

Q2. What are the advantages of your products?
We support product customization to meet customer needs for special products. We can strictly control the products from raw materials to production, processing, product quality inspection, delivery, packaging, etc., and provide customers with high-end products and the most advantageous prices.

Q3. How about products price?
We are a factory, all products are direct sale at factory price. For the same price, we will provide the best quality; for the same quality, we have the most advantageous price.

Q4. What is your terms of packing?
We have branded packaging and neutral packaging, and we can also do what you want with authorization. This is flexible.

Q5. How to guarantee your after-sales service?
Strict inspection during production, Strictly check the products before shipment to ensure our packaging in good condition. Track and receive feedback from customer regularly. Our products warranty is 365 days.
Each product provides quality assurance service. If there is a problem with the product within the warranty period, the customer can negotiate with us in detail about the related claims, and we will do our best to satisfy the customer.

Q6. How can I accurately buy the products I need?
We need accurate product number, If you can’t provide product number, you can send us your product picture, or tell us your truck model, engine name plate, and so on. we will
determine exactly what you need products.

Q7. Do you accept third party inspection?
Yes.we do

Q8. How about your delivery time?
Generally, it will take 3 to 10 days after receiving your advance payment. The specific delivery time depends on the items and the quantity of your order.

Q9. What are your brand agency conditions and advantages?
After we CZPT an agent in 1 city, we will not CZPT a second company to protect the agent’s brand advantage and price advantage. And we will help the agent develop customers and solve all kinds of difficult and miscellaneous problems about products.

Q10. What is your terms of payment?
By TT or LC. We’ll show you the photos of the products and packages before you pay the balance.

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After-sales Service: Support
Condition: New
Application: Shacman Truck
Samples:
US$ 31/Piece
1 Piece(Min.Order)

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Order Sample

Customization:
Available

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Customized Request

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

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Are there any limitations or disadvantages associated with drive shafts?

While drive shafts are widely used and offer several advantages, they also have certain limitations and disadvantages that should be considered. Here’s a detailed explanation of the limitations and disadvantages associated with drive shafts:

1. Length and Misalignment Constraints:

Drive shafts have a maximum practical length due to factors such as material strength, weight considerations, and the need to maintain rigidity and minimize vibrations. Longer drive shafts can be prone to increased bending and torsional deflection, leading to reduced efficiency and potential driveline vibrations. Additionally, drive shafts require proper alignment between the driving and driven components. Misalignment can cause increased wear, vibrations, and premature failure of the drive shaft or its associated components.

2. Limited Operating Angles:

Drive shafts, especially those using U-joints, have limitations on operating angles. U-joints are typically designed to operate within specific angular ranges, and operating beyond these limits can result in reduced efficiency, increased vibrations, and accelerated wear. In applications requiring large operating angles, constant velocity (CV) joints are often used to maintain a constant speed and accommodate greater angles. However, CV joints may introduce higher complexity and cost compared to U-joints.

3. Maintenance Requirements:

Drive shafts require regular maintenance to ensure optimal performance and reliability. This includes periodic inspection, lubrication of joints, and balancing if necessary. Failure to perform routine maintenance can lead to increased wear, vibrations, and potential driveline issues. Maintenance requirements should be considered in terms of time and resources when using drive shafts in various applications.

4. Noise and Vibration:

Drive shafts can generate noise and vibrations, especially at high speeds or when operating at certain resonant frequencies. Imbalances, misalignment, worn joints, or other factors can contribute to increased noise and vibrations. These vibrations may affect the comfort of vehicle occupants, contribute to component fatigue, and require additional measures such as dampers or vibration isolation systems to mitigate their effects.

5. Weight and Space Constraints:

Drive shafts add weight to the overall system, which can be a consideration in weight-sensitive applications, such as automotive or aerospace industries. Additionally, drive shafts require physical space for installation. In compact or tightly packaged equipment or vehicles, accommodating the necessary drive shaft length and clearances can be challenging, requiring careful design and integration considerations.

6. Cost Considerations:

Drive shafts, depending on their design, materials, and manufacturing processes, can involve significant costs. Customized or specialized drive shafts tailored to specific equipment requirements may incur higher expenses. Additionally, incorporating advanced joint configurations, such as CV joints, can add complexity and cost to the drive shaft system.

7. Inherent Power Loss:

Drive shafts transmit power from the driving source to the driven components, but they also introduce some inherent power loss due to friction, bending, and other factors. This power loss can reduce overall system efficiency, particularly in long drive shafts or applications with high torque requirements. It is important to consider power loss when determining the appropriate drive shaft design and specifications.

8. Limited Torque Capacity:

While drive shafts can handle a wide range of torque loads, there are limits to their torque capacity. Exceeding the maximum torque capacity of a drive shaft can lead to premature failure, resulting in downtime and potential damage to other driveline components. It is crucial to select a drive shaft with sufficient torque capacity for the intended application.

Despite these limitations and disadvantages, drive shafts remain a widely used and effective means of power transmission in various industries. Manufacturers continuously work to address these limitations through advancements in materials, design techniques, joint configurations, and balancing processes. By carefully considering the specific application requirements and potential drawbacks, engineers and designers can mitigate the limitations and maximize the benefits of drive shafts in their respective systems.

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How do drive shafts contribute to the efficiency of vehicle propulsion and power transmission?

Drive shafts play a crucial role in the efficiency of vehicle propulsion and power transmission systems. They are responsible for transferring power from the engine or power source to the wheels or driven components. Here’s a detailed explanation of how drive shafts contribute to the efficiency of vehicle propulsion and power transmission:

1. Power Transfer:

Drive shafts transmit power from the engine or power source to the wheels or driven components. By efficiently transferring rotational energy, drive shafts enable the vehicle to move forward or drive the machinery. The design and construction of drive shafts ensure minimal power loss during the transfer process, maximizing the efficiency of power transmission.

2. Torque Conversion:

Drive shafts can convert torque from the engine or power source to the wheels or driven components. Torque conversion is necessary to match the power characteristics of the engine with the requirements of the vehicle or machinery. Drive shafts with appropriate torque conversion capabilities ensure that the power delivered to the wheels is optimized for efficient propulsion and performance.

3. Constant Velocity (CV) Joints:

Many drive shafts incorporate Constant Velocity (CV) joints, which help maintain a constant speed and efficient power transmission, even when the driving and driven components are at different angles. CV joints allow for smooth power transfer and minimize vibration or power losses that may occur due to changing operating angles. By maintaining constant velocity, drive shafts contribute to efficient power transmission and improved overall vehicle performance.

4. Lightweight Construction:

Efficient drive shafts are often designed with lightweight materials, such as aluminum or composite materials. Lightweight construction reduces the rotational mass of the drive shaft, which results in lower inertia and improved efficiency. Reduced rotational mass enables the engine to accelerate and decelerate more quickly, allowing for better fuel efficiency and overall vehicle performance.

5. Minimized Friction:

Efficient drive shafts are engineered to minimize frictional losses during power transmission. They incorporate features such as high-quality bearings, low-friction seals, and proper lubrication to reduce energy losses caused by friction. By minimizing friction, drive shafts enhance power transmission efficiency and maximize the available power for propulsion or operating other machinery.

6. Balanced and Vibration-Free Operation:

Drive shafts undergo dynamic balancing during the manufacturing process to ensure smooth and vibration-free operation. Imbalances in the drive shaft can lead to power losses, increased wear, and vibrations that reduce overall efficiency. By balancing the drive shaft, it can spin evenly, minimizing vibrations and optimizing power transmission efficiency.

7. Maintenance and Regular Inspection:

Proper maintenance and regular inspection of drive shafts are essential for maintaining their efficiency. Regular lubrication, inspection of joints and components, and prompt repair or replacement of worn or damaged parts help ensure optimal power transmission efficiency. Well-maintained drive shafts operate with minimal friction, reduced power losses, and improved overall efficiency.

8. Integration with Efficient Transmission Systems:

Drive shafts work in conjunction with efficient transmission systems, such as manual, automatic, or continuously variable transmissions. These transmissions help optimize power delivery and gear ratios based on driving conditions and vehicle speed. By integrating with efficient transmission systems, drive shafts contribute to the overall efficiency of the vehicle propulsion and power transmission system.

9. Aerodynamic Considerations:

In some cases, drive shafts are designed with aerodynamic considerations in mind. Streamlined drive shafts, often used in high-performance or electric vehicles, minimize drag and air resistance to improve overall vehicle efficiency. By reducing aerodynamic drag, drive shafts contribute to the efficient propulsion and power transmission of the vehicle.

10. Optimized Length and Design:

Drive shafts are designed to have optimal lengths and designs to minimize energy losses. Excessive drive shaft length or improper design can introduce additional rotational mass, increase bending stresses, and result in energy losses. By optimizing the length and design, drive shafts maximize power transmission efficiency and contribute to improved overall vehicle efficiency.

Overall, drive shafts contribute to the efficiency of vehicle propulsion and power transmission through effective power transfer, torque conversion, utilization of CV joints, lightweight construction, minimized friction, balanced operation, regular maintenance, integration with efficient transmission systems, aerodynamic considerations, and optimized length and design. By ensuring efficient power delivery and minimizing energy losses, drive shafts play a significant role in enhancing the overall efficiency and performance of vehicles and machinery.

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What is a drive shaft and how does it function in vehicles and machinery?

A drive shaft, also known as a propeller shaft or prop shaft, is a mechanical component that plays a critical role in transmitting rotational power from the engine to the wheels or other driven components in vehicles and machinery. It is commonly used in various types of vehicles, including cars, trucks, motorcycles, and agricultural or industrial machinery. Here’s a detailed explanation of what a drive shaft is and how it functions:

1. Definition and Construction: A drive shaft is a cylindrical metal tube that connects the engine or power source to the wheels or driven components. It is typically made of steel or aluminum and consists of one or more tubular sections with universal joints (U-joints) at each end. These U-joints allow for angular movement and compensation of misalignment between the engine/transmission and the driven wheels or components.

2. Power Transmission: The primary function of a drive shaft is to transmit rotational power from the engine or power source to the wheels or driven components. In vehicles, the drive shaft connects the transmission or gearbox output shaft to the differential, which then transfers power to the wheels. In machinery, the drive shaft transfers power from the engine or motor to various driven components such as pumps, generators, or other mechanical systems.

3. Torque and Speed: The drive shaft is responsible for transmitting both torque and rotational speed. Torque is the rotational force generated by the engine or power source, while rotational speed is the number of revolutions per minute (RPM). The drive shaft must be capable of transmitting the required torque without excessive twisting or bending and maintaining the desired rotational speed for efficient operation of the driven components.

4. Flexible Coupling: The U-joints on the drive shaft provide a flexible coupling that allows for angular movement and compensation of misalignment between the engine/transmission and the driven wheels or components. As the suspension system of a vehicle moves or the machinery operates on uneven terrain, the drive shaft can adjust its length and angle to accommodate these movements, ensuring smooth power transmission and preventing damage to the drivetrain components.

5. Length and Balance: The length of the drive shaft is determined by the distance between the engine or power source and the driven wheels or components. It should be appropriately sized to ensure proper power transmission and avoid excessive vibrations or bending. Additionally, the drive shaft is carefully balanced to minimize vibrations and rotational imbalances, which can cause discomfort, reduce efficiency, and lead to premature wear of drivetrain components.

6. Safety Considerations: Drive shafts in vehicles and machinery require proper safety measures. In vehicles, drive shafts are often enclosed within a protective tube or housing to prevent contact with moving parts and reduce the risk of injury in the event of a malfunction or failure. Additionally, safety shields or guards are commonly installed around exposed drive shafts in machinery to protect operators from potential hazards associated with rotating components.

7. Maintenance and Inspection: Regular maintenance and inspection of drive shafts are essential to ensure their proper functioning and longevity. This includes checking for signs of wear, damage, or excessive play in the U-joints, inspecting the drive shaft for any cracks or deformations, and lubricating the U-joints as recommended by the manufacturer. Proper maintenance helps prevent failures, ensures optimal performance, and prolongs the service life of the drive shaft.

In summary, a drive shaft is a mechanical component that transmits rotational power from the engine or power source to the wheels or driven components in vehicles and machinery. It functions by providing a rigid connection between the engine/transmission and the driven wheels or components, while also allowing for angular movement and compensation of misalignment through the use of U-joints. The drive shaft plays a crucial role in power transmission, torque and speed delivery, flexible coupling, length and balance considerations, safety, and maintenance requirements. Its proper functioning is essential for the smooth and efficient operation of vehicles and machinery.

China high quality Front Drive Axle Half Shaft for CHINAMFG Truck Parts HD90009420019/HD90009420020/81.36402.6328/HD9100942006  China high quality Front Drive Axle Half Shaft for CHINAMFG Truck Parts HD90009420019/HD90009420020/81.36402.6328/HD9100942006
editor by CX 2024-02-06