Product Description
We can customize any model and specification products for you, we can make
them for you according to pictures and drawings, and we will also issue new
molds for you.
Application
Agricultural equipment • Armament • Automobile industry • Computing equipment • Medical / dental instruments
• Measuring instruments • Miscellaneous equipment • Pharmaceutical industry • Orthopedic implants • Safety equipment
• Petrochemical industry • Industrial valves •Fixing and movable equipment • Sanitary fittings • General machinery
• Pumps and general connections • Food and beverage processing • Instrumentation equipment • Pharmaceutical industry
• Textile equipment • Engine parts, • Auto parts, • Machinery Parts, • Rail Train parts, •Truck Parts • Tractor Parts
Construction Equipment • Agriculture Equipment, • Other industrial fields.
Investment Casting vs. Die Casting
Investment casting has significantly cheaper tooling and is a more cost-effective option for lower quantity production runs.
Additional benefits include a larger alloy selection and the ability to cast larger pieces.
Investment Casting vs. Sand Casting
Investment casting provides a better surface finish and allows for greater design flexibility including the ability to
cast thinner walls, create tighter tolerances and create more intricate coring.
Investment Casting vs. Machining
Investment casting can significantly reduce the cost and lower the production time per piece. This is accomplished by
producing near net shape parts, while greatly reducing the amount of material waste. In some instances,
multiple fabricated parts can be produced as a single casting.
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Type: | Resin Sand/Coated Sand |
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Casting Method: | Thermal Gravity Casting |
Sand Core Type: | Resin Sand Core |
Application: | Agricultural Machinery Parts |
Machining: | CNC Machining |
Material: | Iron |
Samples: |
US$ 300/Piece
1 Piece(Min.Order) | |
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Customization: |
Available
| Customized Request |
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What are the common symptoms of a failing axle hub, and how can they be identified?
Identifying the common symptoms of a failing axle hub is crucial for timely diagnosis and repair. Here’s a detailed explanation of the common symptoms and how they can be identified:
1. Wheel Vibrations:
One of the common symptoms of a failing axle hub is noticeable wheel vibrations. As the hub becomes worn or damaged, it may cause the wheel to wobble or shake while driving. These vibrations can be felt through the steering wheel, floorboard, or seat. To identify this symptom, pay attention to any unusual vibrations that occur, especially at higher speeds.
2. Grinding or Growling Noises:
A failing axle hub can produce grinding or growling noises. This can be an indication of worn-out or damaged wheel bearings within the hub. The noise may vary in intensity, and it is often more pronounced during turns or when the vehicle is in motion. To identify this symptom, listen for any unusual grinding or growling sounds coming from the wheels while driving.
3. Wheel Play or Looseness:
A failing axle hub can result in wheel play or looseness. When the hub is damaged or worn, it may not provide a secure mounting point for the wheel. As a result, the wheel may have excessive play or feel loose when you attempt to wiggle it by hand. To identify this symptom, jack up the vehicle and try to move the wheel in different directions to check for any abnormal movement.
4. Uneven Tire Wear:
A failing axle hub can contribute to uneven tire wear. If the hub is damaged, it can affect the alignment and cause the tire to wear unevenly. Look for signs of abnormal tire wear, such as excessive wear on one side of the tire or feathering patterns. Uneven tire wear may also be accompanied by other symptoms, such as vibrations or pulling to one side while driving.
5. ABS Warning Light:
In some cases, a failing axle hub can trigger the ABS (Anti-lock Braking System) warning light on the vehicle’s dashboard. This can occur if there is a problem with the wheel speed sensor, which is often integrated into the hub assembly. The ABS warning light indicates a fault in the braking system and should be diagnosed using a diagnostic tool by a qualified technician.
6. Visual Inspection:
A visual inspection can also help identify signs of a failing axle hub. Look for any visible damage or wear on the hub, such as cracks, corrosion, or bent flanges. Additionally, check for any leaking grease around the hub or signs of excessive heat, which can indicate bearing failure.
7. Professional Diagnosis:
If you suspect a failing axle hub but are unsure, it is recommended to have the vehicle inspected by a qualified mechanic. They can perform a comprehensive examination of the wheel assembly, including the hub, bearings, and associated components. They may use specialized tools and equipment to measure wheel play, check for bearing wear, and assess the overall condition of the hub.
In summary, common symptoms of a failing axle hub include wheel vibrations, grinding or growling noises, wheel play or looseness, uneven tire wear, ABS warning light activation, and visible damage. It is essential to pay attention to these symptoms and seek professional diagnosis and repair to prevent further damage and ensure the safe operation of the vehicle.
Are there aftermarket axle hubs available with enhanced durability or performance features?
Yes, there are aftermarket axle hubs available with enhanced durability or performance features. Aftermarket parts are components that are produced by manufacturers other than the original equipment manufacturer (OEM) of the vehicle. These aftermarket axle hubs are designed to provide improved durability, performance, or other specialized features compared to the stock OEM axle hubs. Here’s a detailed explanation:
- Durability enhancements: Aftermarket axle hubs may incorporate design improvements or use materials that enhance their durability and longevity. These enhancements can include reinforced bearing housings, stronger wheel studs, improved seals and gaskets, or upgraded materials that better withstand heavy loads, extreme temperatures, or harsh driving conditions. The goal is to provide a more robust and long-lasting axle hub solution.
- Performance features: Some aftermarket axle hubs are designed to offer enhanced performance characteristics. These performance features can include better heat dissipation properties, reduced rotational friction, or improved weight distribution. Performance-oriented axle hubs may also be engineered to provide more precise wheel alignment, improved handling, or reduced unsprung weight, which can contribute to overall vehicle performance.
- Specialized applications: In addition to durability and performance enhancements, aftermarket axle hubs may be available for specialized applications. For example, there are aftermarket axle hubs designed specifically for off-road vehicles, heavy-duty towing, or high-performance sports cars. These specialized axle hubs may have features such as increased load-bearing capacity, improved water and debris resistance, or compatibility with upgraded braking systems.
- Brands and manufacturers: The aftermarket industry offers a wide range of options from various brands and manufacturers. Some aftermarket companies specialize in producing high-quality replacement parts, including axle hubs, that are designed to meet or exceed OEM standards. These aftermarket brands may have a reputation for providing durable and high-performance products, and they often offer warranties to back up their claims.
- Research and compatibility: When considering aftermarket axle hubs with enhanced durability or performance features, it is essential to conduct thorough research. Look for reputable aftermarket brands known for their quality and reliability. Additionally, ensure compatibility with your specific vehicle make, model, and year. Most aftermarket manufacturers provide compatibility information or have online resources to help you select the correct axle hub for your vehicle.
It’s worth noting that while aftermarket axle hubs can offer enhanced durability or performance features, not all aftermarket parts are created equal. The quality and performance of aftermarket axle hubs can vary depending on the manufacturer and brand. It’s advisable to choose reputable aftermarket brands that have a track record of producing reliable and high-quality components. Consulting with automotive professionals or enthusiasts and reading customer reviews can also provide valuable insights when selecting aftermarket axle hubs.
In summary, aftermarket axle hubs with enhanced durability or performance features are available. These aftermarket options may incorporate design improvements, specialized materials, or performance-oriented features to offer increased durability, improved performance, or compatibility with specialized applications. Conducting thorough research and selecting reputable aftermarket brands can help ensure the quality and compatibility of the aftermarket axle hubs for your vehicle.
Can axle hubs impact the alignment of a vehicle, and how is this corrected?
Axle hubs can indeed impact the alignment of a vehicle, and any alignment issues arising from the axle hubs should be corrected to ensure optimal vehicle handling, tire wear, and overall safety. Here’s a detailed explanation:
An axle hub is a critical component that connects the wheel assembly to the vehicle’s suspension. It houses the wheel bearings and provides the mounting point for the wheel. If an axle hub is damaged, worn, or improperly installed, it can lead to misalignment issues. Here are a few ways axle hubs can impact vehicle alignment:
- Bearing Wear: Axle hubs contain wheel bearings that allow the wheels to rotate smoothly. If the bearings are worn or damaged, they can introduce play or uneven movement in the wheel assembly. This can result in misalignment, causing the vehicle to pull to one side or affect the camber, toe, or caster angles.
- Improper Installation: If an axle hub is not installed correctly, it can introduce misalignment issues. For example, if the hub is not tightened to the specified torque or if the mounting surfaces are not properly cleaned, it can result in uneven pressure distribution and misalignment.
- Impact Damage: Axle hubs can get damaged due to accidents, hitting potholes, or other impacts. Any deformation or misalignment of the axle hub can affect the alignment of the wheel assembly.
To correct alignment issues caused by axle hubs, the following steps are typically taken:
- Inspection: A thorough inspection of the axle hubs is conducted to identify any damage, wear, or improper installation. This may involve removing the wheels and visually examining the axle hubs for signs of damage or wear.
- Replacement: If the axle hubs are found to be damaged, worn, or improperly installed, they need to be replaced. Replacement axle hubs should be sourced from reputable manufacturers or OEM (Original Equipment Manufacturer) suppliers to ensure proper fit and alignment.
- Wheel Alignment: After replacing the axle hubs, a wheel alignment procedure is necessary to correct any misalignment caused by the previous issues. This typically involves adjusting the camber, toe, and caster angles to the manufacturer’s specifications using specialized alignment equipment.
- Additional Repairs: In some cases, axle hub-related alignment issues may have caused additional damage to suspension components or steering linkage. These components should be inspected and repaired as needed to ensure proper alignment and functionality.
It’s important to note that correcting alignment issues caused by axle hubs generally requires the expertise of a qualified mechanic or alignment specialist. They have the necessary knowledge, experience, and equipment to accurately diagnose and rectify alignment problems associated with axle hubs.
In summary, axle hubs can impact the alignment of a vehicle. Issues such as bearing wear, improper installation, or impact damage can introduce misalignment. To correct these alignment issues, a thorough inspection of the axle hubs is conducted, followed by replacement if necessary. Afterward, a wheel alignment procedure is performed to adjust the angles to the manufacturer’s specifications. Professional assistance from a qualified mechanic or alignment specialist is recommended to ensure accurate diagnosis and proper correction of axle hub-related alignment issues.
editor by CX 2024-04-11
China Standard Agriculture Axle Farm Trailer Axle Sale 6t for Sale example of wheel and axle
Product Description
Agricultural axle | |||||||
CAPACITY (T) | BRAKE SIZE(mm) | NO.Xsize of wheel stud(mm) | WHEEL REG. DIA (DIM.B)(mm) | BEARING | BEAM SIZE (mm) | TRACK LENGTH (mm) | DIM.D (mm) |
8 | 300*100 | 8*M20*275 | 220 | 32212 32215 | SOLID 90*90 | 1800 | 587.5 |
8 | 300*100 | 8*M20*275 | 220 | 32211 33014 | SOLID 80*80 | 1800 | 587.5 |
6 | 300*100 | 6*M20*275 | 220 | 32211 33571 | SOLID 60*60 | 1800 | 587.5 |
Characteristics:
1. Special heat-treat, low-alloy steel axle beam, it has the vitues of good synthetic performance, strong load ability and lower self weight.
2. High quality alloy solid inserted spindle, through wholy heat treatment, provide superior fatigue capability.
3. High performance premium non-asbestos brake linings, estend serbice life.
4. Easy for ABS installation.
5. Camshaft, matching with special seals, can ensure no entry of the grease into the brake drum, more safety.
6. New tight fit hub cap habe O rings, high property for sealing.
7. Grease lubricant is supplied by Mobil that lengthens the time of free maintenance.
8. Full range of stud fixing such as ISO, BSF and JAP, it can meet the requirements of various wheel rims.
Scope of our business
1. Axles (German type axle, English type axle, American type axle, Spoke axle, ZM axle, Agriculture axle, Half axle, Axle without brake)
2. Suspension (Bogie suspension, One point suspension, Rigid suspension, Spoke suspension, Machinery suspension)
3. Landing gear
4. Fifth wheel (2” 3.5”)
5. King pin (2” 3.5”)
6. Semi trailer
7. Other axles and related parts (Low bed axle, hub, rims, spring, drum…)
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After-sales Service: | Beam |
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Condition: | New |
Axle Number: | 1 |
Application: | Trailer |
Certification: | ISO |
Material: | Steel |
Samples: |
US$ 500/Piece
1 Piece(Min.Order) | |
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Customization: |
Available
| Customized Request |
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What are the key differences between live axles and dead axles in vehicle design?
In vehicle design, live axles and dead axles are two different types of axle configurations with distinct characteristics and functions. Here’s a detailed explanation of the key differences between live axles and dead axles:
Live Axles:
A live axle, also known as a solid axle or beam axle, is a type of axle where the wheels on both ends of the axle are connected and rotate together as a single unit. Here are the key features and characteristics of live axles:
- Connected Wheel Movement: In a live axle configuration, the wheels on both ends of the axle are linked together, meaning that any movement or forces applied to one wheel will directly affect the other wheel. This connection provides equal power distribution and torque to both wheels, making it suitable for off-road and heavy-duty applications where maximum traction is required.
- Simple Design: Live axles have a relatively simple design, consisting of a solid beam that connects the wheels. This simplicity makes them durable and capable of withstanding heavy loads and rough terrains.
- Weight and Cost: Live axles tend to be heavier and bulkier compared to other axle configurations, which can impact the overall weight and fuel efficiency of the vehicle. Additionally, the manufacturing and maintenance costs of live axles can be lower due to their simpler design.
- Suspension: In most cases, live axles are used in conjunction with leaf spring or coil spring suspensions. The axle is typically mounted to the vehicle’s chassis using leaf springs or control arms, allowing the axle to move vertically to absorb bumps and provide a smoother ride.
- Off-road Capability: Live axles are commonly used in off-road vehicles, trucks, and heavy-duty applications due to their robustness, durability, and ability to deliver power to both wheels simultaneously, enhancing traction and off-road performance.
Dead Axles:
A dead axle, also known as a dummy axle or non-driven axle, is a type of axle that does not transmit power to the wheels. It is primarily used to provide support and stability to the vehicle. Here are the key features and characteristics of dead axles:
- Independent Wheel Movement: In a dead axle configuration, each wheel operates independently, meaning that the movement or forces applied to one wheel will not affect the other wheel. Each wheel is responsible for its own power delivery and traction.
- Weight Distribution: Dead axles are often used to distribute the weight of the vehicle more evenly, especially in cases where heavy loads need to be carried. By adding an extra axle without driving capability, the weight can be distributed over a larger area, reducing the load on other axles and improving stability.
- Steering: Dead axles are commonly used as front axles in vehicles with rear-wheel drive configurations. They provide support for the front wheels and allow for steering control. The steering is typically achieved through a separate mechanism, such as a steering linkage or a steering gear.
- Reduced Complexity: Dead axles are simpler in design compared to live axles since they do not have the additional components required for power transmission. This simplicity can lead to lower manufacturing and maintenance costs.
- Efficiency and Maneuverability: Dead axles are often used in vehicles where power delivery to all wheels is not necessary, such as trailers, certain types of buses, and some light-duty vehicles. By eliminating the power transmission components, these vehicles can achieve better fuel efficiency and improved maneuverability.
It’s important to note that the choice between live axles and dead axles depends on the specific application, vehicle type, and desired performance characteristics. Vehicle manufacturers consider factors such as load capacity, traction requirements, off-road capability, cost, and fuel efficiency when determining the appropriate axle configuration for a particular vehicle model.
What is the difference between front and rear axles in a typical vehicle?
In a typical vehicle, there are distinct differences between the front and rear axles due to their respective roles and functions. Here are the key differences:
- Position:
- Steering:
- Driving:
- Suspension:
- Load Distribution:
- Driving Characteristics:
The main difference between the front and rear axles is their position in the vehicle. The front axle is located in the front of the vehicle, while the rear axle is positioned at the rear. This positioning is determined by the vehicle’s drivetrain configuration.
The front axle is responsible for steering the vehicle. It is connected to the steering system, allowing the driver to control the direction of the vehicle. The front axle typically includes components such as steering knuckles, tie rods, and steering linkages.
The rear axle is primarily responsible for driving the vehicle’s wheels. It receives power from the engine through the transmission or differential and transfers that power to the rear wheels. The rear axle may include components such as axle shafts, differential gears, and wheel hubs.
Both the front and rear axles play a role in the vehicle’s suspension system, but their configurations and functions differ. The front axle typically incorporates suspension components such as control arms, struts, or independent suspension systems to provide better handling, stability, and ride comfort. The rear axle may have a solid axle setup or independent suspension depending on the vehicle’s design.
The load distribution on the front and rear axles varies. In a typical vehicle, the front axle carries the weight of the engine, transmission, and a portion of the vehicle’s weight due to the front-end weight bias. The rear axle bears the weight of the vehicle’s occupants, cargo, and a portion of the vehicle’s weight. This distribution helps maintain proper balance and stability during acceleration, braking, and cornering.
The differences between the front and rear axles can influence the vehicle’s driving characteristics. The front axle’s role in steering affects the vehicle’s maneuverability and responsiveness. The rear axle’s responsibility for driving the wheels affects traction, acceleration, and stability, particularly in rear-wheel drive or four-wheel drive vehicles.
It’s important to note that the specific configurations and characteristics of front and rear axles can vary depending on the vehicle’s make, model, and drivetrain system. Different types of vehicles, such as front-wheel drive, rear-wheel drive, or all-wheel drive, may have variations in axle design and functionality.
Understanding the differences between the front and rear axles is essential for proper maintenance, repairs, and modifications of the vehicle’s drivetrain and suspension systems. If you have specific questions about your vehicle’s axles, it’s recommended to consult your vehicle’s owner’s manual or seek advice from qualified mechanics or automotive professionals.
Can you explain the importance of axle alignment for vehicle stability and handling?
Axle alignment plays a crucial role in ensuring vehicle stability and handling characteristics. Proper alignment of the axles is essential for maintaining optimal tire contact with the road surface, minimizing tire wear, maximizing traction, and promoting safe and predictable handling. Here are the key reasons why axle alignment is important:
- Tire Wear and Longevity:
- Optimal Traction:
- Steering Response and Stability:
- Reduced Rolling Resistance:
- Vehicle Safety:
Correct axle alignment helps distribute the vehicle’s weight evenly across all four tires. When the axles are properly aligned, the tires wear evenly, reducing the risk of premature tire wear and extending their lifespan. Misaligned axles can cause uneven tire wear patterns, such as excessive wear on the inner or outer edges of the tires, leading to the need for premature tire replacement.
Proper axle alignment ensures that the tires maintain optimal contact with the road surface. When the axles are aligned correctly, the tires can evenly distribute the driving forces, maximizing traction and grip. This is particularly important during acceleration, braking, and cornering, as proper alignment helps prevent tire slippage and improves overall vehicle stability.
Axle alignment directly affects steering response and stability. When the axles are properly aligned, the vehicle responds predictably to driver inputs, providing precise and accurate steering control. Misaligned axles can lead to steering inconsistencies, such as pulling to one side or requiring constant correction, compromising vehicle stability and handling.
Proper axle alignment helps reduce rolling resistance, which is the force required to move the vehicle forward. When the axles are aligned correctly, the tires roll smoothly and effortlessly, minimizing energy loss due to friction. This can contribute to improved fuel efficiency and reduced operating costs.
Correct axle alignment is crucial for ensuring vehicle safety. Misaligned axles can affect the vehicle’s stability, especially during emergency maneuvers or sudden lane changes. Proper alignment helps maintain the intended handling characteristics of the vehicle, reducing the risk of loss of control and improving overall safety.
To achieve proper axle alignment, several key parameters are considered, including camber, toe, and caster angles. Camber refers to the vertical tilt of the wheel when viewed from the front, toe refers to the angle of the wheels in relation to each other when viewed from above, and caster refers to the angle of the steering axis in relation to vertical when viewed from the side. These alignment angles are adjusted to meet the vehicle manufacturer’s specifications and ensure optimal performance.
It’s important to note that factors such as road conditions, driving habits, and vehicle modifications can affect axle alignment over time. Regular maintenance and periodic alignment checks are recommended to ensure that the axles remain properly aligned, promoting vehicle stability, handling, and safety.
editor by CX 2024-02-28