Product Description
Front Rear Axle without ABS 43BWD06 43BWD03 45BWD06 45BWC03 45BWD07B CZPT CZPT CZPT Wheel Hub Bearing
wheel hub bearings are components used in automobile axles to support load and provide precise guidance for the rotation of the hub. They bear both axial load and radial load, and are an important part of automobile load and rotation.
A wide range of applications:
• agriculture and forestry equipment
• automotive and industrial gearboxes
• automotive and truck electric components, such as alternators
• electric motors
• fluid machinery
• material handling
• power tools and household appliances
• textile machinery
• two Wheeler.
Our Bearing Advantage:
1.Free Sample bearing
2.ISO Standard
3.Bearing Small order accepted
4.In Stock bearing
5.OEM bearing service
6.Professional:16 years manufacture bearing
7.Customized bearing, Customer’s bearing drawing or samples accepted
8.Competitive price bearing
9.TT Payment or Western Union or Trade Assurance Order
| Product Name |
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| Brand Name | NTN CZPT CZPT CZPT Timken | ||||||||||
| Seals Type | OPEN/2Z/2RS/Z/RS | ||||||||||
| Material | Chrome Steel ,Stainless steel,Ceramic,Nylon | ||||||||||
| Clearance | C0,C2,C3,C4,C5 | ||||||||||
| Precision Grade | P0,P6,P5,P4,P2 | 43(45) | 82 | 37 | 37 | 0.76 | |||||
| DAC367629.2/27 | 36 | 76 | 29.2 | 27 | 0.55 | DAC4482.50037 | 44 | 82.5 | 37 | 37 | 0.73 |
| DAC3676571/27 | 36 | 76 | 29 | 27 | 0.55 | DAC44840042/40 | 44 | 84 | 42 | 40 | 0.92 |
| DAC37680034 | 37 | 68 | 34 | 34 | 0.52 | DAC45770050/45 | 45 | 77 | 50 | 45 | |
| DAC37720033 | 37 | 72 | 33 | 33 | 0.58 | DAC45800045 | 45 | 80 | 45 | 45 | 0.78 |
| DAC37720037 | 37 | 72 | 37 | 37 | 0.59 | DAC45830039 | 45 | 83 | 39 | 39 | 0.83 |
| DAC37725717 | 37 | 72.02 | 37 | 37 | 0.59 | DAC45840039 | 45 | 84 | 39 | 39 | 0.85 |
| DAC3772571 | 37 | 72.04 | 37 | 37 | 0.59 | DAC45840041/39 | 45 | 84 | 41 | 39 | 0.8 |
| DAC37740037 | 37 | 74 | 37 | 37 | 0.61 | DAC45840042/40 | 45 | 84 | 42 | 40 | 0.94 |
| DAC37740045 | 37 | 74 | 45 | 45 | 0.79 | DAC45840043 | 45 | 84 | 43 | 43 | 0.96 |
| DAC38640032/29 | 38 | 64 | 32 | 39 | DAC45840045 | 45 | 84 | 45 | 45 | 1 | |
| DAC38640036/33 | 38 | 64 | 36 | 33 | DAC45840053 | 45 | 84 | 53 | 53 | ||
| DAC38640036/33 | 38 | 64 | 36 | 33 | DAC4585571 | 45 | 85 | 23 | 23 | 0.54 | |
| DAC38650052/48 | 38 | 65 | 52 | 48 | DAC458500302 | 45 | 85 | 30.2 | 30.2 | 0.63 | |
| DAC38700037 | 38 | 70 | 37 | 37 | 0.56 | DAC45850045 | 45 | 85 | 45 | 45 | 0.96 |
| DAC38700038 | 38 | 70 | 38 | 38 | 0.57 | DAC45850047 | 45 | 85 | 47 | 47 | 0.98 |
| DAC38710033/30 | 38 | 71 | 33 | 30 | 0.5 | DAC45850051 | 45 | 85 | 51 | 51 | 1.02 |
| DAC38710039 | 38 | 71 | 39 | 39 | 0.58 | DAC45870041/39 | 45 | 87 | 41 | 39 | 0.92 |
| DAC38715713/30 | 38 | 71.02 | 33 | 30 | 0.5 | DAC45880039 | 45 | 88 | 39 | 39 | 0.9 |
| DAC38720036/33 | 38 | 72 | 36 | 33 | 0.56 | DAC45900054/51 | 45 | 90 | 54 | 51 | |
| DAC38725716/33 | 38 | 72.02 | 36 | 33 | 0.56 | DAC46780049 | 46 | 78 | 49 | 49 | |
| DAC38720034 | 38 | 72 | 34 | 34 | 0.55 | DAC46800043/40 | 46 | 80 | 43 | 40 | |
| DAC38720040 | 38 | 72 | 40 | 40 | 0.63 | DAC47810053 | 47 | 81 | 53 | 53 | 1.02 |
| DAC38730040 | 38 | 73 | 40 | 40 | 0.67 | DAC47850045 | 47 | 85 | 45 | 45 | 0.85 |
| DAC38740036 | 38 | 74 | 36 | 36 | 0.62 | DAC47880055 | 47 | 88 | 55 | 55 | |
| DAC38740036/33 | 38 | 74 | 36 | 33 | 0.61 | DAC47880055 | 47 | 88 | 55 | 55 | |
| DAC38745716/33 | 38 | 74.02 | 36 | 33 | 0.59 | DAC47880057.4 | 47 | 88 | 57.4 | 57.4 | |
| DAC38740040 | 38 | 74 | 40 | 40 | 0.67 | DAC48860042/40 | 48 | 86 | 42 | 40 | 0.96 |
| DAC38740050 | 38 | 74 | 50 | 50 | 0.85 | DAC48890044 | 48 | 89 | 44 | 44 | 1.07 |
| DAC38740450 | 38 | 74.04 | 50 | 50 | 0.85 | DAC48890044/42 | 48 | 89 | 44 | 42 | 1.07 |
| DAC38760043/40 | 38 | 76 | 43 | 40 | DAC48900042 | 48 | 90 | 42 | 42 | 1.09 | |
| DAC38760043 | 68 | 76 | 43 | 43 | DAC49840042/40 | 49 | 84 | 42 | 40 | 0.99 | |
| DAC3885716/33 | 38 | 80.02 | 36 | 33 | DAC49840043 | 49 | 84 | 43 | 43 | ||
| DAC39/41750037 | 39/41 | 75 | 37 | 37 | 0.62 | DAC49840048 | 49 | 84 | 48 | 48 | 1.06 |
| DAC39680037 | 39 | 68 | 37 | 37 | 0.48 | DAC49840050 | 49 | 84 | 50 | 50 | 1.08 |
| DAC39680637 | 39 | 68.06 | 37 | 37 | 0.48 | DAC49880046 | 49 | 88 | 46 | 46 | 1.05 |
| DAC3968571 | 39 | 68.07 | 37 | 37 | 0.48 | DAC49900045 | 49 | 90 | 45 | 45 | 1.08 |
| DAC39720037 | 39 | 72 | 37 | 37 | 0.6 | DAC50900040 | 50 | 90 | 40 | 40 | |
| DAC39720037 | 39 | 72 | 37 | 37 | 0.6 | DAC51890044/42 | 51 | 89 | 44 | 42 | |
| DAC39720637 | 39 | 72.06 | 37 | 37 | 0.6 | DAC51910044 | 51 | 91 | 44 | 44 | |
| DAC39720040 | 39 | 72 | 40 | 40 | 0.61 | DAC51960050 | 51 | 96 | 50 | 50 | |
| DAC39740036 | 39 | 74 | 36 | 36 | 0.54 | DAC52910040 | 52 | 91 | 40 | 40 | |
| DAC39740036/34 | 39 | 74 | 36 | 34 | 0.52 | DAC54900050 | 54 | 90 | 50 | 50 | |
| DAC39740039 | 39 | 74 | 39 | 39 | 0.66 | DAC54920050 | 54 | 92 | 50 | 50 | |
| DAC39.1740036/34 | 39.1 | 74 | 36 | 34 | 0.66 | DAC54960051 | 54 | 96 | 51 | 51 | |
| DAC40700043 | 40 | 70 | 43 | 43 | 0.63 | DAC55900060 | 55 | 90 | 60 | 60 |
Q: Are you a trading company or a manufacturer ?
A: We are a manufacturer more than 16 years with professional skill.
Q:Do you provide samples ? Are they free or extra ?
A:Yes, we could offer the sample, while could you pay for the freight?
Q:What kind of freight will you use?
A:Shipment, FedEx, TNT, DHL, UPS and EMS etc.
Q:Could you make bearings with our OEM logo,color and packing?
A: Of course. Please inform us your brand logo,color and packing.
Q: How long is your delivery time?
A: Generally it will be 3-7 days if the goods are in stock; while it will be 15-30 days if the goods are not in stock, which is according to your quantity.
Q: Will you check these products before shipment?
A: Yes, products will be strictly inspected by our own professional QC Process System before shipment.
Q: What’s the Payment Terms ?
A: Usually we accept T/T ,western union ,and order online.
If you want to know more details, please contact us.
| Type: | Wheel Hub Bearing |
|---|---|
| Material: | Chrome Steel |
| Certification: | ISO9001, ISO9006 |
| ABS: | With ABS |
| Car Make: | Toyota |
| Quality Level: | P0 P6 P5 P4 P2 |
| Samples: |
US$ 3/Set
1 Set(Min.Order) | |
|---|
| Customization: |
Available
| Customized Request |
|---|
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.
What are the symptoms of a failing CV joint, and how does it relate to the axle?
A CV (constant velocity) joint is an essential component of the axle assembly in many vehicles. When a CV joint starts to fail, it can exhibit several symptoms that indicate potential problems. Here’s a detailed explanation of the symptoms of a failing CV joint and its relationship to the axle:
Symptoms of a Failing CV Joint:
1. Clicking or popping sounds: One of the most common signs of a failing CV joint is a clicking or popping sound when making turns. This noise usually occurs during tight turns and may indicate worn-out or damaged CV joint bearings.
2. Grease leakage: A failing CV joint may leak grease, which can be seen as dark-colored grease splattered around the CV joint or on the inside of the wheel. Grease leakage is typically caused by a cracked or damaged CV joint boot, which allows the lubricating grease to escape and contaminants to enter.
3. Excessive vibration: A worn-out CV joint can cause vibrations, especially during acceleration. The vibrations may be felt in the steering wheel, floorboards, or even the entire vehicle. These vibrations can become more noticeable as the CV joint deteriorates further.
4. Difficulty in turning: As the CV joint wears out, it may become difficult to turn the vehicle, especially at low speeds or when making sharp turns. This symptom is often accompanied by a clicking or popping sound.
5. Uneven tire wear: A failing CV joint can lead to uneven tire wear. If the CV joint is damaged or worn, it can cause the axle to wobble or vibrate, resulting in uneven tire tread wear. This can be observed by visually inspecting the tires and noticing uneven patterns of wear.
Relationship to the Axle:
The CV joint is an integral part of the axle assembly. It connects the transmission to the wheels and allows smooth power delivery to the wheels while accommodating the up-and-down motion of the suspension. The axle shaft is responsible for transmitting torque from the transmission to the CV joints and ultimately to the wheels.
Axles contain one or more CV joints, depending on the vehicle’s drivetrain configuration. In front-wheel drive vehicles, each front axle typically has two CV joints, one inner and one outer. Rear-wheel drive and all-wheel drive vehicles may have CV joints on both the front and rear axles.
The CV joint consists of a joint housing, bearings, and internal ball bearings or rollers. It is protected by a rubber or thermoplastic CV joint boot, which seals in the grease and protects the joint from contaminants. When the CV joint fails, it can affect the axle’s ability to transmit power smoothly and result in the symptoms mentioned above.
Regular inspection and maintenance of the CV joint and axle assembly are crucial to identify and address any issues promptly. If any of the symptoms mentioned earlier are observed, it is recommended to have the vehicle inspected by a qualified mechanic to determine the exact cause and perform necessary repairs or replacements.
What is the primary function of an axle in a vehicle or machinery?
An axle plays a vital role in both vehicles and machinery, providing essential functions for their operation. The primary function of an axle is to transmit rotational motion and torque from an engine or power source to the wheels or other rotating components. Here are the key functions of an axle:
- Power Transmission:
- Support and Load Bearing:
- Wheel and Component Alignment:
- Suspension and Absorption of Shocks:
- Steering Control:
- Braking:
An axle serves as a mechanical link between the engine or power source and the wheels or driven components. It transfers rotational motion and torque generated by the engine to the wheels, enabling the vehicle or machinery to move. As the engine rotates the axle, the rotational force is transmitted to the wheels, propelling the vehicle forward or driving the machinery’s various components.
An axle provides structural support and load-bearing capability, especially in vehicles. It bears the weight of the vehicle or machinery and distributes it evenly across the wheels or supporting components. This load-bearing function ensures stability, balance, and proper weight distribution, contributing to safe and efficient operation.
The axle helps maintain proper alignment of the wheels or rotating components. It ensures that the wheels are parallel to each other and perpendicular to the ground, promoting stability and optimal tire contact with the road surface. In machinery, the axle aligns and supports the rotating components, ensuring their correct positioning and enabling smooth and efficient operation.
In vehicles, particularly those with independent suspension systems, the axle plays a role in the suspension system’s operation. It may incorporate features such as differential gears, CV joints, or other mechanisms that allow the wheels to move independently while maintaining power transfer. The axle also contributes to absorbing shocks and vibrations caused by road irregularities, enhancing ride comfort and vehicle handling.
In some vehicles, such as trucks or buses, the front axle also serves as a steering axle. It connects to the steering mechanism, allowing the driver to control the direction of the vehicle. By turning the axle, the driver can steer the wheels, enabling precise maneuverability and navigation.
An axle often integrates braking components, such as brake discs, calipers, or drums. These braking mechanisms are actuated when the driver applies the brakes, creating friction against the rotating axle or wheels and causing deceleration or stopping of the vehicle. The axle’s design can affect braking performance, ensuring effective and reliable stopping power.
Overall, the primary function of an axle in both vehicles and machinery is to transmit rotational motion, torque, and power from the engine or power source to the wheels or rotating components. Additionally, it provides support, load-bearing capability, alignment, suspension, steering control, and braking functions, depending on the specific application and design requirements.
editor by CX 2023-12-11