Tag Archives: hub bearing chrysler

China wholesaler Wheel Hubs with Bearings for Chrysler OE: 5085406AA 5085406ab 5085406AC 5105233AA 5105233ab 5105233AC 5154211AA K05085406AC K05154211AA Bearing Hub supplier

Product Description

 

Name: Wheel HUBS with BEARINGS for CHRYSLER OE 5 0571 06AA 5 0571 06AB 5 0571 06AC 51 0571 3AA 51 0571 3AB 51 0571 3AC 5154211AA KAC K5714211AA bearing hub        
Type: wheel bearing
Position: Front/rear axle
Weight: 2.5KG
Specifications: OEM standard size 
Material: Chrome steel/GCR-15
Technology: Hot forging
CAGE: TN Nylon
SEAL: ZZ, 2RS
Rolling body: Steel ball
ABS: Without
Quality: Top grade
Brands: DHXB, OEM
Origin: China
 

DODGE :  AA    DODGE :  AB    DODGE :  AC    DODGE :  5715233AB

DODGE :  5715233AC    DODGE :  5714211AA    DODGE :  5 0571 06AA       DODGE :  5 0571 06AB

DODGE :  5 0571 06AC      DODGE :  51 0571 3AB     DODGE :  51 0571 3AC       DODGE :  5154211AA


Introduction to WHEEL HUB BEARING ASSEMBLY
Our wheel hub bearings assembly are characterised by:

  • optimisation of internal geometry and sealing
  • the use of steel with a very high level of cleanliness
  • the use of greases specifically developed with our suppliers

Our third generation of wheel bearings integrate hub and flange functions for a streamlined and effective assembly and precise adjustment of the pre-load.
We can provide you with robust solutions, whatever your areas of application: passenger vehicles, utilities or heavy goods vehicles.

Related Catalogues You May Concern
 

NTN number KOYO number NSK number OE number
HUB002-6 DACF01 27BWK02 51750-25000
HUB005 DACF09 27BWK03 52710-57100
HUB008 DACF1005C 27BWK04 52710-02XXX
HUB030 DACF1015D 27BWK06 52710-22400
HUB031 DACF1018L 28BWK06 52710-22600
HUB033 DACF1571 28BWK08 52710-25000
HUB036 DACF1033K 28BWK09 52710-25001
HUB042-32 DACF1033K-1 28BWK12 52710-25100
HUB053 DACF1033K-2 28BWK15 52710-25101
HUB059 DACF1034C-3 28BWK16 52710-29400
HUB065-15 DACF1034AR-2 28BWK19 52710-29450
HUB066-52 DACF1041H 30BWK06 52710-29460
HUB066-53 DACF1041JR 30BWK10 52710-29500
HUB081-45 DACF1050B 30BWK11 52710-29XXX
HUB082-6 DACF1065A 30BWK15 52710-29ZZZ
HUB083-64 DACF1072B 30BWK16 52710-34XXX
HUB083-65 DACF1076D 33BWK02 52710-34500
HUB099 DACF1082 36BWK02 52710-34501
HUB132-2 DACF1085 38BWK01 52710-2D000
HUB144 DACF1085-2 41BWK03 52710-2D100
HUB145-7 DACF1085-4-123 43BWK01 52710-3A101
HUB147-20/L DACF1085-5-140 43BWK03 52710-34700
HUB147-22/R DACF1086-2 51KWH01 52730-38002
HUB150-5 DACF1091 54KWH01 52730-38102
HUB156-37 DACF1092 54KWH02 52730-38103
HUB156-39 DACF1097 55BWKH01RHS 52750-1G100
HUB181-22 DACF1091/G3 55BWKH01LHS 45712-EL000
HUB181-32 DACF1092/G3 2DUF58BWK038 43202-EL00A
HUB184 DACF1102A 2DUF50KWH01EJB 42410-06091
HUB184A DACF1172 2DUF053N 42450-52060
HUB188-6 DACF1177 DU5496-5 89544-12571
HUB189-2/R 3DACF026F-7 DU4788-2LFT 89544-57171
HUB189-4/L 3DACF026F-7S 38BWD10 89544-32040
HUB199 3DACF026F-1A 40BWD12 42200-SAA-G51
HUB226 3DACF026F-1AS 40BWD16 43200-9F510
HUB227 DACF35711AC 40BWD17 43200-9F510ABS
HUB230A DACF35711A   43200-WE205
HUB231 DACF7001   89544-48571
HUB254 DACF7002   52008208
HUB280-2 3DACF026-8S   52009867AA
HUB283-6 3DACF030N-1   OK202-26-150
HUB294 DACF2044M   OK9A5-26-150
HUB80-27 DACF2126 PR   BN8B-26-15XD
  DACF805201 BA   13207-01M00
  DAC4278A2RSC53   MR223284
      3C0498621
      46T080705CCZ
      6X0501477
      1T0498621
      1T571611B
      6D20A

ZheJiang Huaxu Bearing Co.,Ltd 
Our factory specialize wheel hub bearing, wheel bearing kit, clutch bearing, taper roller bearing, truck bearing, wheel hub bearing in high quality.
Our bearings have large loading capacity and long lifetime, and widely fit in different vehicles.
wheel bearings and kits to vehicles like LADA, TOYOTA, HONDA, RENAULT, AUDI,Chevrolet, HYUNDAI,FIAT, FORD and so on.
Truck bearings applied to VOLVO, MAN, BENZ, DAF, SAF and so on.
And we can produce bearings which can meet your multifarious demands.
For example, wheel bearing, taper roller bearing, clutch release bearing, ball bearing, truck bearing ect. 
We can provide brands likeTIMKEN, NSK, KOYO, NTN,, NACHI, GMB, BW, GM, HYUNDAI ect.

Q:What’s your after-sales service and warranty?
A: We promise to bear the following responsibilities when defective products were found:
1.12 months warranty from the first day of receiving goods;
2. Replacements would be sent with goods of your next order;
3. Refund for defective products if customers require.

Q:Do you accept ODM&OEM orders?
A: Yes, we provide ODM&OEM services to worldwide customers, we also customize OEM box and packing as your requirements.

Q:What’s the MOQ?
A: MOQ is 10pcs for standardized products; for customized products, MOQ should be negotiated in advance. There is no MOQ for sample orders.

Q:How long is the lead time?
A: The lead time for sample orders is 3-5 days, for bulk orders is 5-15 days.

Q:Do you offer free samples? 
A: Yes we offer free samples to distributors and wholesalers, however customers should bear freight. We DO NOT offer free samples to end users. 

Q:How to place order?
A: 1. Email us the model, brand and quantity,shipping way of bearings and we will quote our best price for you; 
2. Proforma Invoice made and sent to you as the price agreed by both parts; 
3. Deposit Payment after confirming the PI and we arrange production; 
4. Balance paid before shipment or after copy of Bill of Loading.

/* 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: After Market Service
Warranty: 50000km
Type: Wheel Hub Bearing
Material: Chrome Steel
Tolerance: P0.P6.P5
Certification: TS16949, IATF16949
Samples:
US$ 0/Set
1 Set(Min.Order)

|
Request Sample

Customization:
Available

|

Customized Request

axle hub

How do I diagnose and address noise issues associated with a malfunctioning axle hub?

Diagnosing and addressing noise issues associated with a malfunctioning axle hub requires a systematic approach to identify the root cause and take appropriate corrective measures. Here’s a detailed explanation of the diagnostic process and steps to address the problem:

1. Identify the Noise:

The first step is to identify the specific noise associated with the malfunctioning axle hub. Pay attention to the type and characteristics of the noise, such as grinding, growling, clicking, or humming. Note when the noise occurs, whether it’s during acceleration, deceleration, or while turning. This initial identification can help narrow down the possible causes.

2. Inspect the Axle Hub:

Visually inspect the axle hub for any signs of damage or wear. Look for cracks, corrosion, or loose components. Check if there is any leaking grease around the hub, as it can indicate bearing failure. A thorough inspection can provide valuable clues about the condition of the axle hub.

3. Perform a Road Test:

Take the vehicle for a road test to observe the noise and its behavior under different driving conditions. Pay attention to any changes in the noise when making turns, accelerating, or braking. Note whether the noise gets louder or changes in pitch. This can help in further narrowing down the issue.

4. Jack up the Vehicle:

If the noise persists and is suspected to be coming from the axle hub, jack up the vehicle and secure it with jack stands. Rotate the wheel associated with the suspected axle hub and listen for any abnormal noise or roughness. Try to wiggle the wheel by hand to check for excessive play or looseness, which can indicate a problem with the hub assembly.

5. Check Wheel Bearings:

A common cause of noise issues in axle hubs is worn-out or damaged wheel bearings. To check the wheel bearings, grasp the tire at the 12 o’clock and 6 o’clock positions and attempt to rock it back and forth. Excessive movement or play indicates a potential problem with the wheel bearings. Additionally, spin the wheel and listen for any grinding or rumbling noises, which can also be indicative of bearing issues.

6. Addressing the Issue:

If a malfunctioning axle hub is identified as the source of the noise, the following steps can be taken to address the problem:

  • Replacement: If the axle hub is severely damaged or the bearings are worn out, replacing the entire hub assembly is often recommended. This ensures proper fitment, bearing integrity, and overall reliability. Consult the vehicle’s service manual or seek professional assistance for the correct replacement procedure.
  • Bearing Replacement: In some cases, it may be possible to replace the wheel bearings within the axle hub if they are the sole source of the noise issue. This requires specialized tools and expertise, so it is advisable to consult a qualified mechanic for bearing replacement.
  • Additional Repairs: Depending on the severity of the issue, it may be necessary to address other related components. This can include replacing damaged CV joints, inspecting and replacing worn brake components, or addressing any other issues identified during the diagnostic process.

7. Post-Repair Verification:

After addressing the noise issue by repairing or replacing the malfunctioning axle hub, take the vehicle for a test drive to verify that the noise is eliminated. Ensure that the vehicle operates smoothly, and there are no abnormal vibrations or noises coming from the axle hub during different driving conditions.

It’s important to note that diagnosing and addressing noise issues associated with a malfunctioning axle hub can be complex, and it may require the expertise of a qualified mechanic. If you’re uncomfortable performing the diagnostics and repairs yourself, it’s advisable to seek professional assistance to ensure an accurate diagnosis and proper resolution of the issue.

In summary, diagnosing and addressing noise issues associated with a malfunctioning axle hub involves identifying the noise, inspecting the hub, performing a road test, checking wheel bearings, and taking appropriate repair or replacement measures. Following a systematic approach and seeking professional help when needed can help resolve the noise issue and ensure the safe operation of the vehicle.

axle hub

Are there specific tools required for DIY axle hub replacement, and where can I find them?

When undertaking a DIY axle hub replacement, certain tools are needed to ensure a smooth and successful process. Here are some specific tools that are commonly required for DIY axle hub replacement and where you can find them:

  • Jack and jack stands: These tools are essential for raising the vehicle off the ground and providing a stable support system. You can find jacks and jack stands at automotive supply stores, hardware stores, and online retailers.
  • Lug wrench or socket set: A lug wrench or a socket set with the appropriate size socket is necessary to loosen and tighten the lug nuts on the wheel. These tools are commonly available at automotive supply stores, hardware stores, and online retailers.
  • Torque wrench: A torque wrench is required to tighten the lug nuts on the wheel and other fasteners to the manufacturer’s recommended torque specifications. Torque wrenches can be found at automotive supply stores, tool stores, and online retailers.
  • Pry bar: A pry bar is useful for gently separating the axle hub assembly from the mounting point, especially if it is tightly secured. Pry bars are available at automotive supply stores, hardware stores, and online retailers.
  • Hammer: A hammer can be used to tap or lightly strike the axle hub assembly or its components for removal or installation. Hammers are commonly available at hardware stores, tool stores, and online retailers.
  • Wheel bearing grease: High-quality wheel bearing grease is necessary for lubricating the axle hub assembly and ensuring smooth operation. Wheel bearing grease can be purchased at automotive supply stores, lubricant suppliers, and online retailers.
  • Additional tools: Depending on the specific vehicle and axle hub assembly, you may require additional tools such as a socket set, wrenches, pliers, or specific specialty tools. Consult the vehicle’s service manual or online resources for the specific tools needed for your vehicle model.

To find these tools, you can visit local automotive supply stores, hardware stores, or tool stores in your area. They typically carry a wide range of automotive tools and equipment. Alternatively, you can explore online retailers that specialize in automotive tools and equipment, where you can conveniently browse and purchase the tools you need.

It’s important to ensure that the tools you acquire are of good quality and suitable for the task at hand. Investing in quality tools can make the DIY axle hub replacement process more efficient and help achieve better results. Additionally, always follow the manufacturer’s instructions and safety guidelines when using tools and equipment.

In summary, specific tools are required for DIY axle hub replacement, such as a jack and jack stands, lug wrench or socket set, torque wrench, pry bar, hammer, and wheel bearing grease. These tools can be found at automotive supply stores, hardware stores, tool stores, and online retailers. Acquiring quality tools and following proper safety guidelines will contribute to a successful DIY axle hub replacement.

axle hub

Where can I access reliable resources for understanding the relationship between axles and hubs?

When seeking reliable resources to understand the relationship between axles and hubs, there are several avenues you can explore. Here’s a detailed explanation:

1. Manufacturer’s Documentation: The first place to look for information is the official documentation provided by the vehicle manufacturer. Consult the owner’s manual or technical service manuals for your specific vehicle model. These resources often contain detailed explanations, diagrams, and specifications regarding axles and hubs, including their relationship and functionality.

2. Automotive Repair and Service Manuals: Automotive repair and service manuals, such as those published by Haynes or Chilton, can be valuable sources of information. These manuals provide comprehensive guidance on various vehicle systems, including axles and hubs. They often include step-by-step instructions, diagrams, and troubleshooting tips to help you understand the relationship between axles and hubs.

3. Online Forums and Communities: Online forums and communities dedicated to automotive enthusiasts or specific vehicle makes and models can be excellent resources. These platforms provide opportunities to interact with experienced individuals who may have in-depth knowledge about axles and hubs. Participating in discussions, asking questions, and sharing experiences can help you gain insights and a better understanding of the relationship between axles and hubs.

4. Professional Mechanics and Technicians: Consulting with professional mechanics or technicians who specialize in your specific vehicle make or have expertise in axles and hubs can provide valuable information. They can explain the relationship between axles and hubs, answer your questions, and provide practical insights based on their experience. Local service centers or authorized dealerships are good places to seek professional advice.

5. Educational Institutions: Technical schools, vocational programs, and community colleges often offer courses or resources related to automotive technology. Consider exploring their curriculum or reaching out to instructors who can provide educational materials or guidance on understanding axles and hubs.

6. Online Research and Publications: Conducting online research can lead you to various publications, articles, and websites that provide information on axles and hubs. However, it’s crucial to critically evaluate the credibility and reliability of the sources. Look for reputable websites, publications from trusted automotive organizations, or articles written by experts in the field.

Remember to cross-reference information from multiple sources to ensure accuracy and reliability. It’s also important to stay up to date with the latest advancements and industry standards in the automotive field, as knowledge and technology can evolve over time.

In summary, to access reliable resources for understanding the relationship between axles and hubs, consider consulting manufacturer’s documentation, automotive repair manuals, online forums, professional mechanics, educational institutions, and conducting online research. By exploring these avenues, you can gain comprehensive knowledge and a better understanding of the relationship between axles and hubs.

China wholesaler Wheel Hubs with Bearings for Chrysler OE: 5085406AA 5085406ab 5085406AC 5105233AA 5105233ab 5105233AC 5154211AA K05085406AC K05154211AA Bearing Hub   supplier China wholesaler Wheel Hubs with Bearings for Chrysler OE: 5085406AA 5085406ab 5085406AC 5105233AA 5105233ab 5105233AC 5154211AA K05085406AC K05154211AA Bearing Hub   supplier
editor by CX 2024-02-14

China high quality Wheel Hubs with Bearings for Chrysler OE: 5085406AA 5085406ab 5085406AC 5105233AA 5105233ab 5105233AC 5154211AA K05085406AC K05154211AA Bearing Hub with Great quality

Product Description

 

Name: Wheel HUBS with BEARINGS for CHRYSLER OE 5 0571 06AA 5 0571 06AB 5 0571 06AC 51 0571 3AA 51 0571 3AB 51 0571 3AC 5154211AA KAC K5714211AA bearing hub        
Type: wheel bearing
Position: Front/rear axle
Weight: 2.5KG
Specifications: OEM standard size 
Material: Chrome steel/GCR-15
Technology: Hot forging
CAGE: TN Nylon
SEAL: ZZ, 2RS
Rolling body: Steel ball
ABS: Without
Quality: Top grade
Brands: DHXB, OEM
Origin: China
 

DODGE : AA   DODGE : AB   DODGE : AC   DODGE : 5715233AB

DODGE : 5715233AC   DODGE : 5714211AA   DODGE : 5 0571 06AA      DODGE : 5 0571 06AB

DODGE : 5 0571 06AC     DODGE : 51 0571 3AB    DODGE : 51 0571 3AC      DODGE : 5154211AA


Introduction to WHEEL HUB BEARING ASSEMBLY
Our wheel hub bearings assembly are characterised by:

  • optimisation of internal geometry and sealing
  • the use of steel with a very high level of cleanliness
  • the use of greases specifically developed with our suppliers

Our third generation of wheel bearings integrate hub and flange functions for a streamlined and effective assembly and precise adjustment of the pre-load.
We can provide you with robust solutions, whatever your areas of application: passenger vehicles, utilities or heavy goods vehicles.

Related Catalogues You May Concern
 

NTN number KOYO number NSK number OE number
HUB002-6 DACF01 27BWK02 51750-25000
HUB005 DACF09 27BWK03 52710-57100
HUB008 DACF1005C 27BWK04 52710-02XXX
HUB030 DACF1015D 27BWK06 52710-22400
HUB031 DACF1018L 28BWK06 52710-22600
HUB033 DACF1571 28BWK08 52710-25000
HUB036 DACF1033K 28BWK09 52710-25001
HUB042-32 DACF1033K-1 28BWK12 52710-25100
HUB053 DACF1033K-2 28BWK15 52710-25101
HUB059 DACF1034C-3 28BWK16 52710-29400
HUB065-15 DACF1034AR-2 28BWK19 52710-29450
HUB066-52 DACF1041H 30BWK06 52710-29460
HUB066-53 DACF1041JR 30BWK10 52710-29500
HUB081-45 DACF1050B 30BWK11 52710-29XXX
HUB082-6 DACF1065A 30BWK15 52710-29ZZZ
HUB083-64 DACF1072B 30BWK16 52710-34XXX
HUB083-65 DACF1076D 33BWK02 52710-34500
HUB099 DACF1082 36BWK02 52710-34501
HUB132-2 DACF1085 38BWK01 52710-2D000
HUB144 DACF1085-2 41BWK03 52710-2D100
HUB145-7 DACF1085-4-123 43BWK01 52710-3A101
HUB147-20/L DACF1085-5-140 43BWK03 52710-34700
HUB147-22/R DACF1086-2 51KWH01 52730-38002
HUB150-5 DACF1091 54KWH01 52730-38102
HUB156-37 DACF1092 54KWH02 52730-38103
HUB156-39 DACF1097 55BWKH01RHS 52750-1G100
HUB181-22 DACF1091/G3 55BWKH01LHS 45712-EL000
HUB181-32 DACF1092/G3 2DUF58BWK038 43202-EL00A
HUB184 DACF1102A 2DUF50KWH01EJB 42410-06091
HUB184A DACF1172 2DUF053N 42450-52060
HUB188-6 DACF1177 DU5496-5 89544-12571
HUB189-2/R 3DACF026F-7 DU4788-2LFT 89544-57171
HUB189-4/L 3DACF026F-7S 38BWD10 89544-32040
HUB199 3DACF026F-1A 40BWD12 42200-SAA-G51
HUB226 3DACF026F-1AS 40BWD16 43200-9F510
HUB227 DACF35711AC 40BWD17 43200-9F510ABS
HUB230A DACF35711A   43200-WE205
HUB231 DACF7001   89544-48571
HUB254 DACF7002   52008208
HUB280-2 3DACF026-8S   52009867AA
HUB283-6 3DACF030N-1   OK202-26-150
HUB294 DACF2044M   OK9A5-26-150
HUB80-27 DACF2126 PR   BN8B-26-15XD
  DACF805201 BA   13207-01M00
  DAC4278A2RSC53   MR223284
      3C0498621
      46T080705CCZ
      6X0501477
      1T0498621
      1T571611B
      6D20A

ZheJiang Huaxu Bearing Co.,Ltd 
Our factory specialize wheel hub bearing, wheel bearing kit, clutch bearing, taper roller bearing, truck bearing, wheel hub bearing in high quality.
Our bearings have large loading capacity and long lifetime, and widely fit in different vehicles.
wheel bearings and kits to vehicles like LADA, TOYOTA, HONDA, RENAULT, AUDI,Chevrolet, HYUNDAI,FIAT, FORD and so on.
Truck bearings applied to VOLVO, SCANIA, MAN, BENZ, DAF, SAF and so on.
And we can produce bearings which can meet your multifarious demands.
For example, wheel bearing, taper roller bearing, clutch release bearing, ball bearing, truck bearing ect. 
We can provide brands likeSKF, TIMKEN, NSK, KOYO, NTN,, NACHI, GMB, BW, GM, HYUNDAI ect.

Q:What’s your after-sales service and warranty?
A: We promise to bear the following responsibilities when defective products were found:
1.12 months warranty from the first day of receiving goods;
2. Replacements would be sent with goods of your next order;
3. Refund for defective products if customers require.

Q:Do you accept ODM&OEM orders?
A: Yes, we provide ODM&OEM services to worldwide customers, we also customize OEM box and packing as your requirements.

Q:What’s the MOQ?
A: MOQ is 10pcs for standardized products; for customized products, MOQ should be negotiated in advance. There is no MOQ for sample orders.

Q:How long is the lead time?
A: The lead time for sample orders is 3-5 days, for bulk orders is 5-15 days.

Q:Do you offer free samples? 
A: Yes we offer free samples to distributors and wholesalers, however customers should bear freight. We DO NOT offer free samples to end users. 

Q:How to place order?
A: 1. Email us the model, brand and quantity,shipping way of bearings and we will quote our best price for you; 
2. Proforma Invoice made and sent to you as the price agreed by both parts; 
3. Deposit Payment after confirming the PI and we arrange production; 
4. Balance paid before shipment or after copy of Bill of Loading.

How to Determine the Quality of a Worm Shaft

There are many advantages of a worm shaft. It is easier to manufacture, as it does not require manual straightening. Among these benefits are ease of maintenance, reduced cost, and ease of installation. In addition, this type of shaft is much less prone to damage due to manual straightening. This article will discuss the different factors that determine the quality of a worm shaft. It also discusses the Dedendum, Root diameter, and Wear load capacity.
worm shaft

Root diameter

There are various options when choosing worm gearing. The selection depends on the transmission used and production possibilities. The basic profile parameters of worm gearing are described in the professional and firm literature and are used in geometry calculations. The selected variant is then transferred to the main calculation. However, you must take into account the strength parameters and the gear ratios for the calculation to be accurate. Here are some tips to choose the right worm gearing.
The root diameter of a worm gear is measured from the center of its pitch. Its pitch diameter is a standardized value that is determined from its pressure angle at the point of zero gearing correction. The worm gear pitch diameter is calculated by adding the worm’s dimension to the nominal center distance. When defining the worm gear pitch, you have to keep in mind that the root diameter of the worm shaft must be smaller than the pitch diameter.
Worm gearing requires teeth to evenly distribute the wear. For this, the tooth side of the worm must be convex in the normal and centre-line sections. The shape of the teeth, referred to as the evolvent profile, resembles a helical gear. Usually, the root diameter of a worm gear is more than a quarter inch. However, a half-inch difference is acceptable.
Another way to calculate the gearing efficiency of a worm shaft is by looking at the worm’s sacrificial wheel. A sacrificial wheel is softer than the worm, so most wear and tear will occur on the wheel. Oil analysis reports of worm gearing units almost always show a high copper and iron ratio, suggesting that the worm’s gearing is ineffective.

Dedendum

The dedendum of a worm shaft refers to the radial length of its tooth. The pitch diameter and the minor diameter determine the dedendum. In an imperial system, the pitch diameter is referred to as the diametral pitch. Other parameters include the face width and fillet radius. Face width describes the width of the gear wheel without hub projections. Fillet radius measures the radius on the tip of the cutter and forms a trochoidal curve.
The diameter of a hub is measured at its outer diameter, and its projection is the distance the hub extends beyond the gear face. There are 2 types of addendum teeth, 1 with short-addendum teeth and the other with long-addendum teeth. The gears themselves have a keyway (a groove machined into the shaft and bore). A key is fitted into the keyway, which fits into the shaft.
Worm gears transmit motion from 2 shafts that are not parallel, and have a line-toothed design. The pitch circle has 2 or more arcs, and the worm and sprocket are supported by anti-friction roller bearings. Worm gears have high friction and wear on the tooth teeth and restraining surfaces. If you’d like to know more about worm gears, take a look at the definitions below.
worm shaft

CZPT’s whirling process

Whirling process is a modern manufacturing method that is replacing thread milling and hobbing processes. It has been able to reduce manufacturing costs and lead times while producing precision gear worms. In addition, it has reduced the need for thread grinding and surface roughness. It also reduces thread rolling. Here’s more on how CZPT whirling process works.
The whirling process on the worm shaft can be used for producing a variety of screw types and worms. They can produce screw shafts with outer diameters of up to 2.5 inches. Unlike other whirling processes, the worm shaft is sacrificial, and the process does not require machining. A vortex tube is used to deliver chilled compressed air to the cutting point. If needed, oil is also added to the mix.
Another method for hardening a worm shaft is called induction hardening. The process is a high-frequency electrical process that induces eddy currents in metallic objects. The higher the frequency, the more surface heat it generates. With induction heating, you can program the heating process to harden only specific areas of the worm shaft. The length of the worm shaft is usually shortened.
Worm gears offer numerous advantages over standard gear sets. If used correctly, they are reliable and highly efficient. By following proper setup guidelines and lubrication guidelines, worm gears can deliver the same reliable service as any other type of gear set. The article by Ray Thibault, a mechanical engineer at the University of Virginia, is an excellent guide to lubrication on worm gears.

Wear load capacity

The wear load capacity of a worm shaft is a key parameter when determining the efficiency of a gearbox. Worms can be made with different gear ratios, and the design of the worm shaft should reflect this. To determine the wear load capacity of a worm, you can check its geometry. Worms are usually made with teeth ranging from 1 to 4 and up to twelve. Choosing the right number of teeth depends on several factors, including the optimisation requirements, such as efficiency, weight, and centre-line distance.
Worm gear tooth forces increase with increased power density, causing the worm shaft to deflect more. This reduces its wear load capacity, lowers efficiency, and increases NVH behavior. Advances in lubricants and bronze materials, combined with better manufacturing quality, have enabled the continuous increase in power density. Those 3 factors combined will determine the wear load capacity of your worm gear. It is critical to consider all 3 factors before choosing the right gear tooth profile.
The minimum number of gear teeth in a gear depends on the pressure angle at zero gearing correction. The worm diameter d1 is arbitrary and depends on a known module value, mx or mn. Worms and gears with different ratios can be interchanged. An involute helicoid ensures proper contact and shape, and provides higher accuracy and life. The involute helicoid worm is also a key component of a gear.
Worm gears are a form of ancient gear. A cylindrical worm engages with a toothed wheel to reduce rotational speed. Worm gears are also used as prime movers. If you’re looking for a gearbox, it may be a good option. If you’re considering a worm gear, be sure to check its load capacity and lubrication requirements.
worm shaft

NVH behavior

The NVH behavior of a worm shaft is determined using the finite element method. The simulation parameters are defined using the finite element method and experimental worm shafts are compared to the simulation results. The results show that a large deviation exists between the simulated and experimental values. In addition, the bending stiffness of the worm shaft is highly dependent on the geometry of the worm gear toothings. Hence, an adequate design for a worm gear toothing can help reduce the NVH (noise-vibration) behavior of the worm shaft.
To calculate the worm shaft’s NVH behavior, the main axes of moment of inertia are the diameter of the worm and the number of threads. This will influence the angle between the worm teeth and the effective distance of each tooth. The distance between the main axes of the worm shaft and the worm gear is the analytical equivalent bending diameter. The diameter of the worm gear is referred to as its effective diameter.
The increased power density of a worm gear results in increased forces acting on the corresponding worm gear tooth. This leads to a corresponding increase in deflection of the worm gear, which negatively affects its efficiency and wear load capacity. In addition, the increasing power density requires improved manufacturing quality. The continuous advancement in bronze materials and lubricants has also facilitated the continued increase in power density.
The toothing of the worm gears determines the worm shaft deflection. The bending stiffness of the worm gear toothing is also calculated by using a tooth-dependent bending stiffness. The deflection is then converted into a stiffness value by using the stiffness of the individual sections of the worm shaft. As shown in figure 5, a transverse section of a two-threaded worm is shown in the figure.

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China OEM Automotive Parts Rear Axle Wheel Bearing Hub 512136 Br930172 for Chrysler Sebring 1995-2005 Coupe near me supplier

Product Description

Product Description

A wheel bearing is applied to the automotive axle to load and provide accurate CZPT components for the rotation of the wheel hub, both bearing axial load and radial load. It has good performance to installing, omitted clearance, lightweight, compact structure, large load capacity, for the sealed bearing prior to loading, ellipsis external wheel grease seal and from maintenance, etc. And wheel bearing has been widely used in cars, trucks.

 

An Auto wheel bearing is the main usage of bearing and provides an accurate CZPT to the rotation of the wheel hub. Under axial and radial load, it is a very important component. It is developed on the basis of standardized angular contact ball bearings and tapered roller bearings.
 

Features: 

 A. auto wheel hub bearings are adopted with international superior raw material and high-class grease from USA Shell grease. 

B.The series auto wheel hub bearings are in the nature of frame structure, lightweight, large rated burden, strong resistant capability, thermostability, good dustproof performance and etc. 

C. Auto wheel hub bearing can be endured bidirectional axial load and major radial load and sealed bearings are unnecessary to add lubricant additives upon assembly. 

Product Parameters

Item Automotive parts Rear axle wheel bearing hub 512136 BR930172 for Chrysler Sebring 1995-2 Br930172 wheel hub assembly (Please contact us for more details)
 

Chrysler Sebring 1995-2005 Coupe

Dodge Avenger 1995-2000

Dodge Stratus 2001-2005 Coupe

Eagle Talon 1995-1998 FWD

Mitsubishi Eclipse 2000-2004

Mitsubishi Eclipse 1995-1999 FWD

Mitsubishi Galant 1997-2003

Mitsubishi Galant 1996- From Apr 1/1996

Other Model List of Wheel hub unit( Please contact us for more details)

BCA SKF TIMKEN Car Model
512000 BR930053 512000 Saturn S Series
512179 BR930071 512179 Acura
513098 FW156 513098 Acura
513033 BR93571 513033 Acura Integra
513105 BR930113 513105 Acura Integra
512012 BR935718 512012 Audi TT
513125 BR930161 513125 BMW 318
513017K BR93571K 513017K Buick  Skyhawk
512244 BR930075 HA590073 Buick Allure
513203 BR930184 HA590076/ HA590085 Buick Allure
512078 BR930078 512078 Buick Century
512150 BR930075 512150 Buick Century
512151 BR930145 512151 Buick Century
512237 BR930075 512237 Buick Century
513018 BR930026 513018 Buick Century
513121 BR930148 Threaded Hub/BR930548K 513121 Buick Century
513160 BR930184 513160 Buick Century
513179 BR930149/930548K 513179 Buick Century
513011K BR930091K 513011K Buick Century
513016K BR930571K 513016K Buick Century
513062 BR930068 513062 Buick Electra
512003 BR930074 512003 Buick Lesabre
513088 BR930077 513088 Buick LeSabre
513087 BR930076 513087 Buick Park Ave
512004 BR930096 512004 Buick Regal
513044 BR930083K 513044 Buick Regal
513187 BR930149/930548K 513187 Buick Rendevous
513013 BR930052K 513013 Buick Riviera
513012 BR930093 513012 Buick Skyhawk
512001 BR930070 512001 Buick Skylark
515053 BR93571 SP450301 Cadillac Escalade
515571 BR930346 SP550307 Cadillac Esclade
513164 BR930169 HA596467 Cadillac Catera
515036 BR930304 SP500300 cadillac Escalade
515005 BR930265 515005 Chevy Astro
515019 BR935719 SP550308 Chevy Astro
513200 BR930497 SP450300 Chevy Blazer
513090 BR930186 513090 Chevy Camaro
513204 BR935716 HA590068 Chevy Colbalt
512229 BR930327 512229 Chevy Equinox
512230 BR930328 512230 Chevy Equinox
512152 BR930098 512152 Chevy Fleet Classic
513137 BR930080 513137 Chevy Fleet Classic
513215 BR93571 HA590071 Chevy Malibu
518507 BR930300K 518507 Chevy Prizm
515054   SP550306 Chevy Silverado
515058 BR93571 SP58571 Chevy Silverado
513193 BR930308 513193 Chevy Tracker
513124 BR930097 513124 Chevy/GMC
515018   HA591339 Chevy/GMC
515015 BR930406 SP580302/580303 Chevy/GMC  20/2500
515016   SP580300 Chevy/GMC  20/2500
515001 BR930094 515001 Chevy/GMC All K Series
515002 BR930035 515002 Chevy/GMC K Series
515041 BR930406 SP580302/580303 Chevy/GMC K1500
515048     Chevy/GMC K1500
515055     Chevy/GMC K1500
515037     Chevy/GMC K3500
513061 BR930064 513061 Chevy/GMC S15 Jimmy
512133 BR930176 512133 Chrysler Cirrus
512154 BR930194 512154 Chrysler Cirrus
512220 BR930199 512220 Chrysler Cirrus
513138 BR930138 513138 Chrysler Cirrus
512571 BR930188 / 189 512571 Chrysler Concorde
513089 BR930190K 513089 Chrysler Concorde
518501 BR930001 518001 Chrysler E Class
518502 BR930002 518502 Chrysler E Class
513075 BR930013 513075 Chrysler Le Baron
518500 BR930000 518500 Chrysler LeBaron
513123 BR935715 513123 Chrysler Prowler
512167 BR930173 512167 Chrysler PT Cruiser
512136 BR930172 512136 Chrysler Sebring
512157 BR930066 512157 Chrysler Town & Country
512169 BR935718 512169 Chrysler Town & Country
512170 BR935719 512170 Chrysler Town & Country
513074 BR930571K 513074 Chrysler Town & Country
513122 BR935716 513122 Chrysler Town & Country
512155 BR930069 512155 Chrysler Town Country
512156 BR930067 512156 Chrysler Town Country

Our Company supplies wheel bearings, wheel hub unit, belt tensioner, hydraulic clutch release bearing, mechanic clutch release bearings
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Company Profile

Our Advantages

1.ISO Standard

2.Bearing Small order accepted

3.In Stock bearing

4.OEM bearing service

5.Professional Technical Support

6.Timely pre-sale service
7.Competitive price
8.Full range of products on auto bearings
9.Punctual Delivery
11.Excellent after-sale service
 

Packaging & Shipping

 

Packaging Details 1 piece in a single box
50 boxes in a carton
20 cartons in a pallet
Nearest Port ZheJiang or HangZhou
Lead Time For stock parts: 1-5 days.
If no stock parts:
<200 pcs: 15-30 days
≥200 pcs: to be negotiated.

 

FAQ

If you have any other questions, please feel free to contact us as follows:

 

Q: Why did you choose us?

1. We provide the best quality bearings with reasonable prices, low friction, low noise, and long service life.

2. With sufficient stock and fast delivery, you can choose our freight forwarder or your freight forwarder.

 

Q: Do you accept small orders?

100% quality check, once your bearings are standard size bearings, even one, we also accept.

 

Q: How long is your delivery time?

Generally speaking, if the goods are in stock, it is 1-3 days. If the goods are out of stock, it will take 6-10 days, depending on the quantity of the order.

 

Q: Do you provide samples? Is it free or extra?

Yes, we can provide a small number of free samples. 

 

Q: What should I do if I don’t see the type of bearings I need?

We have too many bearing series numbers. Just send us the inquiry and we will be very happy to send you the bearing details.

Q: Could you accept OEM and customize?
A: Yes, we can customize for you according to sample or drawing, but, pls provide us technical data, such as dimension and mark.

Contact Us 

Calculating the Deflection of a Worm Shaft

In this article, we’ll discuss how to calculate the deflection of a worm gear’s worm shaft. We’ll also discuss the characteristics of a worm gear, including its tooth forces. And we’ll cover the important characteristics of a worm gear. Read on to learn more! Here are some things to consider before purchasing a worm gear. We hope you enjoy learning! After reading this article, you’ll be well-equipped to choose a worm gear to match your needs.
worm shaft

Calculation of worm shaft deflection

The main goal of the calculations is to determine the deflection of a worm. Worms are used to turn gears and mechanical devices. This type of transmission uses a worm. The worm diameter and the number of teeth are inputted into the calculation gradually. Then, a table with proper solutions is shown on the screen. After completing the table, you can then move on to the main calculation. You can change the strength parameters as well.
The maximum worm shaft deflection is calculated using the finite element method (FEM). The model has many parameters, including the size of the elements and boundary conditions. The results from these simulations are compared to the corresponding analytical values to calculate the maximum deflection. The result is a table that displays the maximum worm shaft deflection. The tables can be downloaded below. You can also find more information about the different deflection formulas and their applications.
The calculation method used by DIN EN 10084 is based on the hardened cemented worm of 16MnCr5. Then, you can use DIN EN 10084 (CuSn12Ni2-C-GZ) and DIN EN 1982 (CuAl10Fe5Ne5-C-GZ). Then, you can enter the worm face width, either manually or using the auto-suggest option.
Common methods for the calculation of worm shaft deflection provide a good approximation of deflection but do not account for geometric modifications on the worm. While Norgauer’s 2021 approach addresses these issues, it fails to account for the helical winding of the worm teeth and overestimates the stiffening effect of gearing. More sophisticated approaches are required for the efficient design of thin worm shafts.
Worm gears have a low noise and vibration compared to other types of mechanical devices. However, worm gears are often limited by the amount of wear that occurs on the softer worm wheel. Worm shaft deflection is a significant influencing factor for noise and wear. The calculation method for worm gear deflection is available in ISO/TR 14521, DIN 3996, and AGMA 6022.
The worm gear can be designed with a precise transmission ratio. The calculation involves dividing the transmission ratio between more stages in a gearbox. Power transmission input parameters affect the gearing properties, as well as the material of the worm/gear. To achieve a better efficiency, the worm/gear material should match the conditions that are to be experienced. The worm gear can be a self-locking transmission.
The worm gearbox contains several machine elements. The main contributors to the total power loss are the axial loads and bearing losses on the worm shaft. Hence, different bearing configurations are studied. One type includes locating/non-locating bearing arrangements. The other is tapered roller bearings. The worm gear drives are considered when locating versus non-locating bearings. The analysis of worm gear drives is also an investigation of the X-arrangement and four-point contact bearings.
worm shaft

Influence of tooth forces on bending stiffness of a worm gear

The bending stiffness of a worm gear is dependent on tooth forces. Tooth forces increase as the power density increases, but this also leads to increased worm shaft deflection. The resulting deflection can affect efficiency, wear load capacity, and NVH behavior. Continuous improvements in bronze materials, lubricants, and manufacturing quality have enabled worm gear manufacturers to produce increasingly high power densities.
Standardized calculation methods take into account the supporting effect of the toothing on the worm shaft. However, overhung worm gears are not included in the calculation. In addition, the toothing area is not taken into account unless the shaft is designed next to the worm gear. Similarly, the root diameter is treated as the equivalent bending diameter, but this ignores the supporting effect of the worm toothing.
A generalized formula is provided to estimate the STE contribution to vibratory excitation. The results are applicable to any gear with a meshing pattern. It is recommended that engineers test different meshing methods to obtain more accurate results. One way to test tooth-meshing surfaces is to use a finite element stress and mesh subprogram. This software will measure tooth-bending stresses under dynamic loads.
The effect of tooth-brushing and lubricant on bending stiffness can be achieved by increasing the pressure angle of the worm pair. This can reduce tooth bending stresses in the worm gear. A further method is to add a load-loaded tooth-contact analysis (CCTA). This is also used to analyze mismatched ZC1 worm drive. The results obtained with the technique have been widely applied to various types of gearing.
In this study, we found that the ring gear’s bending stiffness is highly influenced by the teeth. The chamfered root of the ring gear is larger than the slot width. Thus, the ring gear’s bending stiffness varies with its tooth width, which increases with the ring wall thickness. Furthermore, a variation in the ring wall thickness of the worm gear causes a greater deviation from the design specification.
To understand the impact of the teeth on the bending stiffness of a worm gear, it is important to know the root shape. Involute teeth are susceptible to bending stress and can break under extreme conditions. A tooth-breakage analysis can control this by determining the root shape and the bending stiffness. The optimization of the root shape directly on the final gear minimizes the bending stress in the involute teeth.
The influence of tooth forces on the bending stiffness of a worm gear was investigated using the CZPT Spiral Bevel Gear Test Facility. In this study, multiple teeth of a spiral bevel pinion were instrumented with strain gages and tested at speeds ranging from static to 14400 RPM. The tests were performed with power levels as high as 540 kW. The results obtained were compared with the analysis of a three-dimensional finite element model.
worm shaft

Characteristics of worm gears

Worm gears are unique types of gears. They feature a variety of characteristics and applications. This article will examine the characteristics and benefits of worm gears. Then, we’ll examine the common applications of worm gears. Let’s take a look! Before we dive in to worm gears, let’s review their capabilities. Hopefully, you’ll see how versatile these gears are.
A worm gear can achieve massive reduction ratios with little effort. By adding circumference to the wheel, the worm can greatly increase its torque and decrease its speed. Conventional gearsets require multiple reductions to achieve the same reduction ratio. Worm gears have fewer moving parts, so there are fewer places for failure. However, they can’t reverse the direction of power. This is because the friction between the worm and wheel makes it impossible to move the worm backwards.
Worm gears are widely used in elevators, hoists, and lifts. They are particularly useful in applications where stopping speed is critical. They can be incorporated with smaller brakes to ensure safety, but shouldn’t be relied upon as a primary braking system. Generally, they are self-locking, so they are a good choice for many applications. They also have many benefits, including increased efficiency and safety.
Worm gears are designed to achieve a specific reduction ratio. They are typically arranged between the input and output shafts of a motor and a load. The 2 shafts are often positioned at an angle that ensures proper alignment. Worm gear gears have a center spacing of a frame size. The center spacing of the gear and worm shaft determines the axial pitch. For instance, if the gearsets are set at a radial distance, a smaller outer diameter is necessary.
Worm gears’ sliding contact reduces efficiency. But it also ensures quiet operation. The sliding action limits the efficiency of worm gears to 30% to 50%. A few techniques are introduced herein to minimize friction and to produce good entrance and exit gaps. You’ll soon see why they’re such a versatile choice for your needs! So, if you’re considering purchasing a worm gear, make sure you read this article to learn more about its characteristics!
An embodiment of a worm gear is described in FIGS. 19 and 20. An alternate embodiment of the system uses a single motor and a single worm 153. The worm 153 turns a gear which drives an arm 152. The arm 152, in turn, moves the lens/mirr assembly 10 by varying the elevation angle. The motor control unit 114 then tracks the elevation angle of the lens/mirr assembly 10 in relation to the reference position.
The worm wheel and worm are both made of metal. However, the brass worm and wheel are made of brass, which is a yellow metal. Their lubricant selections are more flexible, but they’re limited by additive restrictions due to their yellow metal. Plastic on metal worm gears are generally found in light load applications. The lubricant used depends on the type of plastic, as many types of plastics react to hydrocarbons found in regular lubricant. For this reason, you need a non-reactive lubricant.

China OEM Automotive Parts Rear Axle Wheel Bearing Hub 512136 Br930172 for Chrysler Sebring 1995-2005 Coupe   near me supplier China OEM Automotive Parts Rear Axle Wheel Bearing Hub 512136 Br930172 for Chrysler Sebring 1995-2005 Coupe   near me supplier