Product Description
Product Description
1.We are manufacturer of cv drive shaft,cv axle, cv joint and cv boot, we have more than 20-years experience in producing and selling auto parts.
2.We have strict quality control, the quality of our products is very good.
3.We are professional in different market around the world.
4.The reviews our customers given us are very positive, we have confidence in our products.
5.OEM/ODM is available, meet your requirements well.
6.Large warehouse, huge stocks!!! friendly for those customers who want some quantity.
7.Ship products out very fastly, we have stock.
| Product Name | Drive shaft | Material | 42CrMo alloy steel |
| Car fitment |
Chevrolet |
Warranty | 12 months |
| Model | Ranger 3.0 TDI/MAZDA Fighter AT/MT | Place of origin | ZHangZhoug, China |
| year | 2007-2011 | MOQ | 4 PCS |
| OE number | C-GM140-8H | Delivery time | 1-7 days |
| OEM/ODM | Yes | Brand | GJF |
| Packing size | 72*23.5*23.5 | Payment | L/C,T/T,western Union,Cash,PayPal |
| Sample service | Depends on the situation of stock | Weight | 8.2088KG |
Detailed Photos
Customer Review
Packaging & Shipping
FAQ
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| After-sales Service: | 12 Months |
|---|---|
| Condition: | New |
| Axle Number: | 1 |
| Application: | Car |
| Certification: | ASTM, CE, DIN, ISO |
| Material: | Alloy |
| Samples: |
US$ 32/Piece
1 Piece(Min.Order) | |
|---|
| Customization: |
Available
| Customized Request |
|---|
What is the role of the front axle in a four-wheel-drive or all-wheel-drive vehicle?
In a four-wheel-drive (4WD) or all-wheel-drive (AWD) vehicle, the front axle plays a crucial role in the power distribution and stability of the vehicle. Its functions include:
1. Power Distribution:
– The front axle, in conjunction with the rear axle, is responsible for distributing engine power to all four wheels. This ensures that all wheels receive torque from the engine, improving traction and the vehicle’s ability to move in various conditions, especially when traction is compromised due to slippery or uneven surfaces.
2. Traction Improvement:
– By driving both the front and rear axles, a 4WD or AWD vehicle can provide better traction in off-road situations, on slippery roads, or in adverse weather conditions. When one set of wheels loses traction, power can be redirected to the other set to maintain forward momentum.
3. Enhanced Stability:
– The front axle contributes to the vehicle’s stability, especially during acceleration. By distributing power to both axles, it helps prevent wheel spin, wheel slip, and loss of control. This feature is particularly beneficial when driving on rough terrain or in challenging conditions.
4. Improved Off-Road Capabilities:
– 4WD and AWD vehicles are well-suited for off-road adventures. The front axle, along with the rear axle, enables all four wheels to work together, allowing the vehicle to tackle steep inclines, rocky terrain, mud, and snow with greater ease.
5. Versatility:
– The front axle in 4WD and AWD systems can typically be engaged or disengaged as needed. This versatility allows the driver to switch between two-wheel drive (either front-wheel drive or rear-wheel drive) and four-wheel drive depending on the road conditions, optimizing fuel efficiency and traction as required.
– In summary, the front axle in 4WD and AWD vehicles is essential for power distribution, traction improvement, stability enhancement, and off-road capabilities. It plays a pivotal role in ensuring the vehicle’s performance in a wide range of driving conditions.
What innovations or advancements have been made in front axle technology?
Front axle technology has seen several innovations and advancements over the years to improve performance, safety, and efficiency in various vehicle types. Some notable innovations include:
1. Independent Front Suspension (IFS):
– One of the most significant advancements is the widespread adoption of independent front suspension (IFS) in many modern vehicles. IFS offers improved ride comfort and handling compared to solid front axles. It achieves this by allowing each front wheel to move independently, resulting in better road contact and reduced vibration.
2. Electronic Axle Disconnect:
– Electronic axle disconnect systems have been developed to enhance fuel efficiency. These systems disconnect the front axle when four-wheel drive is not needed, reducing drag and improving fuel economy. It’s commonly used in modern 4×4 SUVs and trucks.
3. Variable-Rate Coil Springs:
– Innovations in spring technology have led to the development of variable-rate coil springs. These springs adjust their stiffness according to the vehicle’s load and road conditions, providing a smoother ride while maintaining stability.
4. Advanced Materials:
– The use of advanced materials, such as high-strength steel and lightweight alloys, has led to stronger and lighter front axle components. This improves performance, reduces vehicle weight, and enhances fuel efficiency.
5. Active Suspension Systems:
– Some high-end vehicles feature active suspension systems that adjust damping rates in real-time to improve handling and ride quality. These systems use sensors and electronic controls to adapt to changing road conditions.
6. Air Suspension:
– Air suspension systems have become more advanced and are now used in various vehicles, allowing drivers to adjust ride height and comfort levels. These systems are especially popular in luxury cars, SUVs, and commercial vehicles.
7. Four-Wheel Steering:
– In some cases, front axle innovations are paired with four-wheel steering systems, where the rear wheels also contribute to steering. This enhances vehicle maneuverability and stability, particularly at higher speeds.
– These advancements in front axle technology aim to improve vehicle performance, safety, and efficiency. They cater to various vehicle types and are often tailored to meet specific consumer demands and market trends.
What is the purpose of a front axle in a vehicle’s suspension system?
The front axle in a vehicle’s suspension system plays a crucial role in supporting the front wheels and contributing to the vehicle’s overall performance and safety. Its main purposes include:
1. Weight Support:
The front axle bears a significant portion of the vehicle’s weight, including the engine and other front-end components. It ensures that the weight is evenly distributed between the front wheels, promoting stability and proper handling.
2. Steering Support:
The front axle houses the steering components, such as the steering knuckles, tie rods, and steering arms. These components are essential for controlling the direction of the front wheels. The front axle provides the necessary support and connection for the steering system, allowing the driver to control the vehicle’s path.
3. Suspension Attachment:
The front axle serves as the attachment point for the front suspension components, including the front shocks or struts, control arms, and stabilizer bars. These components work together to absorb shocks from the road, provide a comfortable ride, and maintain tire contact with the road surface, enhancing traction and handling.
4. Wheel Support and Alignment:
The front axle holds and supports the front wheels. It ensures that the wheels are properly aligned, which is crucial for even tire wear and predictable steering behavior. The front axle’s design and alignment settings contribute to the vehicle’s handling characteristics.
5. Ride Comfort:
The front axle, in combination with the suspension components, contributes to ride comfort by absorbing road irregularities, bumps, and shocks. It helps reduce vibrations and impacts transmitted to the vehicle’s cabin, resulting in a smoother and more comfortable ride for passengers.
6. Stability and Handling:
Properly designed front axles play a vital role in the vehicle’s stability and handling. They assist in maintaining tire contact with the road, preventing excessive body roll, and ensuring predictable steering response. This is critical for safe and controlled driving.
7. Impact Absorption:
In the event of a collision, the front axle can absorb and distribute some of the impact forces, contributing to passenger safety. It helps protect the vehicle’s occupants by dissipating energy from a frontal impact.
8. Connection to the Engine:
In front-engine vehicles, the front axle connects the engine to the front wheels through the transmission system. It transfers power from the engine to drive the front wheels, allowing the vehicle to move forward.
Overall, the front axle is a critical component in a vehicle’s suspension system, responsible for weight support, steering, suspension attachment, wheel support and alignment, ride comfort, stability, and impact absorption, all of which are essential for safe and efficient driving.
editor by CX 2024-03-10
China manufacturer Slip Yoke Light Drive Shaft Agricultural Tractor Clutch Spline Joint Cardan Shaft Couplings Cross Drive CZPT Propeller Metal near me manufacturer
Solution Description
Slip Yoke Light-weight Travel Shaft
Our PTO drive shafts are designed to satisfy certain needs with the most inexpensive layout.
Tractor Finish: 1-3/8″ x 6 Spline, Fast Disconnect
Employ Finish: 1-3/8″ Spherical with 1/2″ Shear Bolt/ Attachment Pin Hole
Compressed Duration: fifty six-3/sixteen”
All round Recommended Max Working Length: eighty two” (Calculated with 1/3 shaft overlap)
EP Stock Amount: 14001406
The shortest length measurement is taken from the ends of yokes when entirely compressed.
The extended size is an guideline based on sustaining at least 1/3 shaft length overlap.
Proportions are in inches.
| Model Number | SP48 |
| Function | Power transmission |
| Use | Tractors and various farm implements |
| Place of Origin | Zhejiang, China (Mainland) |
| Brand Name | EP |
| Yoke Type | push pin/quick release/ball attachment/collar/double push pin/bolt pins/split pins |
| Processing Of Yoke | Forging |
| Plastic Cover | YW;BW;YS;BS |
| Color | Yellow;black |
| Series | 1S;2S;3S;4S;5S;6S;7S;8S;9S;10S;38S;48S;36 |
| Tube Type | Trianglar/star/lemon |
| Processing Of Tube | Cold drawn |
| Spline Type | 1 3/8" Z6; 1 3/8 Z21 ;1 3/4 Z20;1 1/8 Z6; 1 3/4 Z6; 8*42*48*8; 8*32*38*6 |
| Model Number | SP48 |
| Function | Power transmission |
| Use | Tractors and various farm implements |
| Place of Origin | Zhejiang, China (Mainland) |
| Brand Name | EP |
| Yoke Type | push pin/quick release/ball attachment/collar/double push pin/bolt pins/split pins |
| Processing Of Yoke | Forging |
| Plastic Cover | YW;BW;YS;BS |
| Color | Yellow;black |
| Series | 1S;2S;3S;4S;5S;6S;7S;8S;9S;10S;38S;48S;36 |
| Tube Type | Trianglar/star/lemon |
| Processing Of Tube | Cold drawn |
| Spline Type | 1 3/8" Z6; 1 3/8 Z21 ;1 3/4 Z20;1 1/8 Z6; 1 3/4 Z6; 8*42*48*8; 8*32*38*6 |
Driveshaft structure and vibrations associated with it
The structure of the drive shaft is critical to its efficiency and reliability. Drive shafts typically contain claw couplings, rag joints and universal joints. Other drive shafts have prismatic or splined joints. Learn about the different types of drive shafts and how they work. If you want to know the vibrations associated with them, read on. But first, let’s define what a driveshaft is.
transmission shaft
As the demand on our vehicles continues to increase, so does the demand on our drive systems. Higher CO2 emission standards and stricter emission standards increase the stress on the drive system while improving comfort and shortening the turning radius. These and other negative effects can place significant stress and wear on components, which can lead to driveshaft failure and increase vehicle safety risks. Therefore, the drive shaft must be inspected and replaced regularly.
Depending on your model, you may only need to replace one driveshaft. However, the cost to replace both driveshafts ranges from $650 to $1850. Additionally, you may incur labor costs ranging from $140 to $250. The labor price will depend on your car model and its drivetrain type. In general, however, the cost of replacing a driveshaft ranges from $470 to $1850.
Regionally, the automotive driveshaft market can be divided into four major markets: North America, Europe, Asia Pacific, and Rest of the World. North America is expected to dominate the market, while Europe and Asia Pacific are expected to grow the fastest. Furthermore, the market is expected to grow at the highest rate in the future, driven by economic growth in the Asia Pacific region. Furthermore, most of the vehicles sold globally are produced in these regions.
The most important feature of the driveshaft is to transfer the power of the engine to useful work. Drive shafts are also known as propeller shafts and cardan shafts. In a vehicle, a propshaft transfers torque from the engine, transmission, and differential to the front or rear wheels, or both. Due to the complexity of driveshaft assemblies, they are critical to vehicle safety. In addition to transmitting torque from the engine, they must also compensate for deflection, angular changes and length changes.
type
Different types of drive shafts include helical shafts, gear shafts, worm shafts, planetary shafts and synchronous shafts. Radial protruding pins on the head provide a rotationally secure connection. At least one bearing has a groove extending along its circumferential length that allows the pin to pass through the bearing. There can also be two flanges on each end of the shaft. Depending on the application, the shaft can be installed in the most convenient location to function.
Propeller shafts are usually made of high-quality steel with high specific strength and modulus. However, they can also be made from advanced composite materials such as carbon fiber, Kevlar and fiberglass. Another type of propeller shaft is made of thermoplastic polyamide, which is stiff and has a high strength-to-weight ratio. Both drive shafts and screw shafts are used to drive cars, ships and motorcycles.
Sliding and tubular yokes are common components of drive shafts. By design, their angles must be equal or intersect to provide the correct angle of operation. Unless the working angles are equal, the shaft vibrates twice per revolution, causing torsional vibrations. The best way to avoid this is to make sure the two yokes are properly aligned. Crucially, these components have the same working angle to ensure smooth power flow.
The type of drive shaft varies according to the type of motor. Some are geared, while others are non-geared. In some cases, the drive shaft is fixed and the motor can rotate and steer. Alternatively, a flexible shaft can be used to control the speed and direction of the drive. In some applications where linear power transmission is not possible, flexible shafts are a useful option. For example, flexible shafts can be used in portable devices.
put up
The construction of the drive shaft has many advantages over bare metal. A shaft that is flexible in multiple directions is easier to maintain than a shaft that is rigid in other directions. The shaft body and coupling flange can be made of different materials, and the flange can be made of a different material than the main shaft body. For example, the coupling flange can be made of steel. The main shaft body is preferably flared on at least one end, and the at least one coupling flange includes a first generally frustoconical projection extending into the flared end of the main shaft body.
The normal stiffness of fiber-based shafts is achieved by the orientation of parallel fibers along the length of the shaft. However, the bending stiffness of this shaft is reduced due to the change in fiber orientation. Since the fibers continue to travel in the same direction from the first end to the second end, the reinforcement that increases the torsional stiffness of the shaft is not affected. In contrast, a fiber-based shaft is also flexible because it uses ribs that are approximately 90 degrees from the centerline of the shaft.
In addition to the helical ribs, the drive shaft 100 may also contain reinforcing elements. These reinforcing elements maintain the structural integrity of the shaft. These reinforcing elements are called helical ribs. They have ribs on both the outer and inner surfaces. This is to prevent shaft breakage. These elements can also be shaped to be flexible enough to accommodate some of the forces generated by the drive. Shafts can be designed using these methods and made into worm-like drive shafts.
vibration
The most common cause of drive shaft vibration is improper installation. There are five common types of driveshaft vibration, each related to installation parameters. To prevent this from happening, you should understand what causes these vibrations and how to fix them. The most common types of vibration are listed below. This article describes some common drive shaft vibration solutions. It may also be beneficial to consider the advice of a professional vibration technician for drive shaft vibration control.
If you’re not sure if the problem is the driveshaft or the engine, try turning on the stereo. Thicker carpet kits can also mask vibrations. Nonetheless, you should contact an expert as soon as possible. If vibration persists after vibration-related repairs, the driveshaft needs to be replaced. If the driveshaft is still under warranty, you can repair it yourself.
CV joints are the most common cause of third-order driveshaft vibration. If they are binding or fail, they need to be replaced. Alternatively, your CV joints may just be misaligned. If it is loose, you can check the CV connector. Another common cause of drive shaft vibration is improper assembly. Improper alignment of the yokes on both ends of the shaft can cause them to vibrate.
Incorrect trim height can also cause driveshaft vibration. Correct trim height is necessary to prevent drive shaft wobble. Whether your vehicle is new or old, you can perform some basic fixes to minimize problems. One of these solutions involves balancing the drive shaft. First, use the hose clamps to attach the weights to it. Next, attach an ounce of weight to it and spin it. By doing this, you minimize the frequency of vibration.
cost
The global driveshaft market is expected to exceed (xxx) million USD by 2028, growing at a compound annual growth rate (CAGR) of XX%. Its soaring growth can be attributed to several factors, including increasing urbanization and R&D investments by leading market players. The report also includes an in-depth analysis of key market trends and their impact on the industry. Additionally, the report provides a comprehensive regional analysis of the Driveshaft Market.
The cost of replacing the drive shaft depends on the type of repair required and the cause of the failure. Typical repair costs range from $300 to $750. Rear-wheel drive cars usually cost more. But front-wheel drive vehicles cost less than four-wheel drive vehicles. You may also choose to try repairing the driveshaft yourself. However, it is important to do your research and make sure you have the necessary tools and equipment to perform the job properly.
The report also covers the competitive landscape of the Drive Shafts market. It includes graphical representations, detailed statistics, management policies, and governance components. Additionally, it includes a detailed cost analysis. Additionally, the report presents views on the COVID-19 market and future trends. The report also provides valuable information to help you decide how to compete in your industry. When you buy a report like this, you are adding credibility to your work.
A quality driveshaft can improve your game by ensuring distance from the tee and improving responsiveness. The new material in the shaft construction is lighter, stronger and more responsive than ever before, so it is becoming a key part of the driver. And there are a variety of options to suit any budget. The main factor to consider when buying a shaft is its quality. However, it’s important to note that quality doesn’t come cheap and you should always choose an axle based on what your budget can handle.
