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China wholesaler Best Selling CZPT Auto Axle Drive Propeller Shaft OE 2044107001 for Mercedes Benz W221 W212 W222 axle fix cost

Product Description

Description Axle Drive Propeller Shaft for W221 W212 W222
OEM Number 2044107001
Brand Frey
Application W221 W212 W222
Market Type Aftermarket
Price Term EXW, FOB HangZhou/HangZhou
Payment T/T, Paypal, West Union, L/C, Cash, etc
Quality Produced according to the OE Parts
Certificate TUV, SGS
Packing Frey Brand, Customer Brand, Neutral Packing
Delivery Time  5-15 days if in stock
Export Areas Sounth America, Europe, Amercia, Asia

 Frey, since 2004, is a Supply Chain Management Co, Ltd.For automotive after-market integrating R8D, operation, sales,service,import and export trade of automo-bile parts. Our core products focus on serving the aftermarket brand such as Mer-cedes Benz and BMW And we are a brand supplier with the most complete SkU in automotive aftermar-ket in China.ln China, CZPT has morethan 150 agency outlets, and the sales of prod-ucts have covered more than 110 countries and regions around theworld, basicallyrealizing the sales network all over the world.As a wel-known global auto partsbrand,Frey has a global supply intelligence distribution centers in HangZhoucover-ing a total area of 15000 square meters. in the digital modern industrial system, through the introduction of perfect ware-housing and logistics system and SAPintelligent management system, CZPT prod-ucts are more rigorous and meticulous in the production and operation.warehousingmanagement,accurate distribution and other series of operation processes.

  In the past 17 years, CZPT Brand has always adhered to independent researchand development,with technologyas the driving force and products as the core.Soevery year, more than 800 new products are introduced, with atotal of more than15000 products. The products produced by CZPT Brand have successfully passed the SO 9001quality management systemcertification by TUV South Germany group.

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After-sales Service: 12 Months
Condition: New
Color: Black

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

axle shaft

Are there potential challenges or limitations to using specific axle shafts?

Using specific axle shafts in vehicles can come with challenges or limitations depending on various factors such as the design of the vehicle, the intended use, and the specific characteristics of the axle shafts. Here’s a detailed explanation of potential challenges or limitations associated with specific axle shafts:

  • Compatibility: One challenge is ensuring compatibility between the axle shafts and the vehicle’s drivetrain configuration, suspension system, and overall design. Axle shafts must be designed to fit the specific vehicle model and its corresponding drivetrain layout. Using incompatible axle shafts can lead to improper fitment, compromised performance, or even mechanical failures.
  • Strength and Durability: Depending on the vehicle’s weight, power output, and intended use, specific axle shafts may have limitations in terms of strength and durability. Axle shafts subjected to heavy loads, aggressive driving, or off-road conditions may require higher-strength materials or specialized designs to withstand the forces and torque applied to them. Using axle shafts that are not adequately designed for the vehicle’s demands can result in premature wear, bending, or breakage.
  • Performance Trade-offs: Different types of axle shafts offer different performance trade-offs. For example, solid axle shafts may provide durability and simplicity but can result in a harsher ride quality and limited independent wheel movement. On the other hand, CV (constant velocity) axle shafts offer smoother power delivery and greater wheel articulation but may have limitations in terms of torque capacity and durability under extreme conditions. It’s important to consider the specific requirements and priorities of the vehicle’s performance and select axle shafts accordingly.
  • Cost and Availability: Certain axle shafts, especially those designed for specialized applications or high-performance vehicles, may be more expensive or harder to source compared to standard axle shafts. Limited availability can pose challenges when it comes to replacement or upgrade options. Additionally, aftermarket axle shafts might not always meet the same quality standards as original equipment manufacturer (OEM) parts, which could impact their performance and reliability.
  • Modifications and Customization: Modifying or customizing axle shafts can introduce additional challenges. Altering axle shafts to accommodate different drivetrain configurations, wheel sizes, or suspension setups may require specialized knowledge, engineering expertise, and fabrication skills. Improper modifications can negatively affect the vehicle’s stability, handling, and safety.
  • Serviceability: Some specific axle shafts might have limited serviceability or require specialized tools or expertise for maintenance, repair, or replacement. This can impact the availability and cost of servicing the vehicle. It’s important to consider the long-term serviceability and support for specific axle shafts when selecting them for a vehicle.

It’s crucial to consult with knowledgeable professionals, such as automotive engineers or experienced mechanics, to ensure the appropriate selection and installation of axle shafts for a specific vehicle. They can provide valuable insights and guidance based on the vehicle’s requirements, intended use, and potential limitations associated with specific axle shafts.

In summary, potential challenges or limitations of using specific axle shafts include compatibility issues, limitations in strength and durability, performance trade-offs, cost and availability considerations, challenges related to modifications or customization, and serviceability concerns. A careful assessment of these factors is essential to ensure the optimal performance, safety, and reliability of the vehicle.

axle shaft

Can you provide examples of classic and modern vehicles that use various axle shafts?

Various classic and modern vehicles utilize different types of axle shafts depending on their design, drivetrain configuration, and intended use. Here are examples of classic and modern vehicles that use various axle shafts:

Classic Vehicles:

  • Ford Mustang (Classic): Classic Ford Mustang models, such as the first-generation Mustangs produced in the 1960s, typically featured solid rear axle shafts. These axle shafts were commonly made of forged steel and provided simplicity and durability in a rear-wheel drive configuration.
  • Jeep Wrangler (Classic): Classic Jeep Wrangler models, such as the Jeep CJ series, often utilized solid front and rear axle shafts. These axle shafts were designed to handle the demands of off-road driving and provided ruggedness and reliability in a four-wheel drive setup.
  • Volkswagen Beetle (Classic): The classic Volkswagen Beetle, produced from the 1930s to the 2000s, featured independent rear suspension with CV (constant velocity) axle shafts. These axle shafts allowed for smooth power delivery and improved handling characteristics.

Modern Vehicles:

  • Ford F-150 (Modern): The Ford F-150, a popular full-size pickup truck, utilizes various axle shaft configurations depending on the model and drivetrain options. Rear-wheel drive versions may employ solid axle shafts, while four-wheel drive models can feature independent front suspension with CV axle shafts and a solid rear axle.
  • Toyota Camry (Modern): The Toyota Camry, a mid-size sedan, typically incorporates front-wheel drive with independent front suspension and CV axle shafts. These axle shafts provide smooth power transfer and allow for improved maneuverability and efficiency.
  • Jeep Wrangler (Modern): The modern Jeep Wrangler continues to utilize solid front and rear axle shafts, maintaining its off-road capability and durability. The solid axle shafts contribute to the Wrangler’s exceptional ground clearance and ability to handle challenging terrains.
  • Tesla Model S (Modern): The Tesla Model S, an all-electric luxury sedan, utilizes electric motor-driven axle shafts instead of traditional mechanical axle shafts. These electric motor-driven axle shafts deliver instant torque to the wheels, providing impressive acceleration and performance.

It’s important to note that the specific axle shaft configurations and materials used in vehicles can vary even within the same model due to different trim levels, drivetrain options, and technological advancements. Additionally, aftermarket modifications can further alter the axle shaft setups in vehicles to accommodate specific needs and preferences.

When considering axle shafts for replacement or upgrades, it’s crucial to ensure compatibility with the vehicle’s make, model, and drivetrain configuration. Consulting with a professional mechanic or referencing the manufacturer’s specifications is recommended to ensure the correct axle shaft selection.

In summary, classic and modern vehicles utilize various axle shaft configurations, including solid axle shafts, CV axle shafts, and electric motor-driven axle shafts. These axle shafts are tailored to the specific needs of the vehicle, such as durability, off-road capability, power delivery, and efficiency.

axle shaft

What are the components of an axle shaft assembly and their functions?

An axle shaft assembly consists of several components that work together to facilitate the transmission of power from the differential to the wheels. Each component plays a specific role in ensuring efficient power transfer and supporting the functionality of the axle shaft assembly. Here are the main components and their functions:

1. Axle Shaft:

The axle shaft itself is the main component of the assembly. It is a long, cylindrical shaft that connects the differential or transaxle to the wheels. The primary function of the axle shaft is to transmit rotational power from the differential to the wheels, enabling them to rotate and propelling the vehicle forward or backward.

2. Differential Side Gears or Output Shafts:

The axle shaft assembly is connected to the differential through side gears or output shafts. These are gear-like components that are part of the differential mechanism. The side gears or output shafts engage with the axle shafts, providing a solid mechanical connection. They allow the rotational force from the differential to be transmitted to the axle shafts, initiating power transfer to the wheels.

3. Constant Velocity (CV) Joints:

In many modern vehicles, especially those with front-wheel drive or independent suspension systems, the axle shaft assembly incorporates constant velocity (CV) joints. CV joints allow for smooth power transfer and accommodate changes in axle angle and length due to suspension movement and steering. They provide flexibility and reduce vibrations during power transmission. CV joints consist of inner and outer joints with ball bearings and protective boots filled with grease to maintain lubrication and prevent contamination.

4. Wheel Hubs:

At the outer ends of the axle shaft assembly, wheel hubs are attached. Wheel hubs serve as the connection points for the wheels. They provide a mounting surface for the wheels and ensure proper alignment and rotation. The axle shafts transmit the rotational power from the differential to the wheel hubs, causing the wheels to rotate. Wheel hubs often incorporate bearings to allow smooth rotation and reduce friction.

5. Bearings:

Bearings are crucial components within the axle shaft assembly. They support the rotating motion of the axle shafts and the wheel hubs. The bearings reduce friction and allow the axle shafts and wheel hubs to rotate freely. They are typically designed to withstand the forces and loads encountered during vehicle operation and contribute to smooth and efficient power transmission.

6. Seals and Retaining Devices:

To prevent the entry of contaminants and retain lubrication, seals are used in the axle shaft assembly. Seals are placed at various points along the assembly to protect the bearings, CV joints, and other critical components from dirt, moisture, and debris. Additionally, retaining devices such as circlips or snap rings are used to secure the axle shafts, CV joints, or bearings within their respective housings, ensuring proper alignment and preventing unintended disassembly.

These are the key components typically found in an axle shaft assembly. The combination of these components allows for effective power transmission, smooth rotation, support for the wheels, and protection of critical parts, ensuring the overall functionality and longevity of the axle shaft assembly.

China wholesaler Best Selling CZPT Auto Axle Drive Propeller Shaft OE 2044107001 for Mercedes Benz W221 W212 W222   axle fix costChina wholesaler Best Selling CZPT Auto Axle Drive Propeller Shaft OE 2044107001 for Mercedes Benz W221 W212 W222   axle fix cost
editor by CX 2024-04-25

China Professional CZPT OEM 2123-2201015-20 21213-2203012-1 Auto Spare Parts Propeller Half Shaft Cardan Rear Axle Reinforced Drive Shaft for Chevrolet Niva Vaz 2123 2121-21214 with Best Sales

Product Description

What are the symptoms of a damaged half shaft?
The half shaft is the component that transmits power to the wheels. Without the half shaft, the power cannot be transmitted to the wheels. If the car’s half shaft is damaged, it will cause the car to vibrate abnormally when driving, and will also cause abnormal noises when the car is driving. If the drive shaft is damaged, it needs to be replaced immediately.
If there is a problem with the drive shaft when the vehicle is driving at high speed, it may cause the car tires to fall off or the wheel hub to become out of round. The wheel hub out of roundness will cause the car’s dynamic balance to become unbalanced, causing the car’s high-speed steering wheel to shake. In the vehicle’s transmission system, the half shaft plays an important role and is the shaft that connects the drive wheels and the differential. The inner tie rod ends are generally connected to each other through side gears and splines, and the outer tie rod ends are connected to the wheel hub and flange. The structure of the automobile drive wheel is determined by the structural form of the half shaft. According to the different stress conditions of the half shaft, it can be divided into semi-floating half shaft and fully floating half shaft. It can be seen that the automobile half shaft is the most important factor in the daily driving of the car. An important component, the safe driving of the car depends on the performance of the drive shaft. After long-term torsional fatigue and impact, automobile half shafts are prone to bending, breakage, twisting, skewing, and spline tooth wear. The fractures of automobile half shafts usually have the following morphological types: 1.The spiral of the half-shaft shaft is broken; 2. Mixed cracks and fractures appear in the half-shaft shaft; 3.The splines of the half-shaft are broken; 4.The half-shaft is blue Cracks appear on the disc, and may even fall off in severe cases; 5.Other morphological fractures and cracks in the half shaft.

Product description
HDAG oem -20 2-1 auto spare parts propeller half shaft cardan rear axle reinforced drive shaft for chevrolet niva vaz 2123 2121-21214 

 

Item Name          Auto or car CV JOINT,Universal Joint,CV JOINT INNER OUTER, DRIVE SHAFT, DRIVESHAFT,CV AXLE, JOINT SHAFT ASSEMBLY,CV AXLE JOINT SHAFT, HALF SHAFT, WHEEL BEARING HUB, WHEEL HUB BEARING, WHEEL BEARING
OEM/REF NO.              2 2  2 2 2   2 2  -20  21213 -2203012-1  
Car Model For lada UAZ 2206/3151/3303/3741/9 3741 236571  3160 3163 NIVA VAZ samara moskvich 2141 Tavria 1102 GRANTA LARGUS Vesta X-Ray Kalina PRIORA BA3 Granta Kalina Priora OKA VESTA  Gazelle Gazelle Gazel Gazon Kamaz Patriot 
POSITION RH/LH/Right/ Left/ Front/Rear
MOQ 150PCS
Quality/Product parameters OEM standard or Design as sample or drawing
Payment Terms T/T, L/C, Credit card, Cash
Product Guarantee 1 Year or 50,
CZPT :
CZPT :
CZPT : 4342
CZPT : 4342
CZPT : 4342R20
CZPT : 4346R30
CZPT : 4346S50
CZPT : 4346
CZPT : 4347S60
CZPT : 4347U90
CZPT :
CZPT :
CZPT : 434708Z033
CZPT : 434708Z037
NISSAN : 391J10
NISSAN : 391571JJ10
NISSAN : 39157117JJ10
NISSAN : 3910110JJ10
NISSAN : 391M615
NISSAN : 391Y10
NISSAN : 391M570
NISSAN : 391N215
NISSAN : 391571M311
NISSAN : 391571M915
NISSAN : 3910140Y10
NISSAN : 391014M570
NISSAN : 391014M575
NISSAN : 391014M771
NISSAN : 3910163Y10
NISSAN : 391016N215
MAZDA : G057155Y070
391012Y175
392112Y070
391J210
NISSAN : 391J171
NISSAN : 391N275
NISSAN : 391J071
NISSAN : 391J915
NISSAN : 391E478
NISSAN : 391012J215
NISSAN : 391014N175
NISSAN : 391014N177
NISSAN : 391014N275
NISSAN : 391015J571
NISSAN : 391016J571
NISSAN : 391016J071
NISSAN : 391016J076
NISSAN : 391016J915
NISSAN : 39101AE415
NISSAN : 39101AU415
NISSAN : 39101AU416
NISSAN : 39101AW110
NISSAN : 39101CX116
NISSAN : 39101WF715
NISSAN : 39101WF716
391NN01
3921185E
391M10
CZPT : 4347Z035
CZPT : 434708Z039
374077/374078/374092/7837456/7839615/7837457 3920164Y10 G564-25-5G60 MAZDA : G034255
 191498103A
 191498103C
191498103CV
191498103CX
 191498104C
 321498103D
357498103
 357498103A
 357498103V
357498103X
357498350X
191498103
1K0498103
4D0498099,4D0498099A,8D0498099D,8D0498099E,10 0571 5,1H0407271CX,8E 0571 15B,3B0498099E,8E0498099G 43410-20380 513315/26013813/51571 39211-73J27 GS01255, 8D0498103, 8D0498103A,3B0498103,43145711H  8D0498099A,8D 0571 15H,8D0498099C,8D 0571 15H 43420-20380 3748103A 86~88099 435711011 44105-78B
VAG :
6Q0498099E, 6Q0498099B, 6Q0498099EX 43403-6, 96564144
,96396134,512395
39211-3U  39211-BM726 FD50-25-40XA, FA60-25-40X, FA58-25-50X FA252560XA/FA557160X/FA5822510/FA5822510B/FD54-25-60XA/FD55-25-50XA
1K0498103C 8K0498099X,8K0498099,8K0498099D 17145711  171498UU507
NISSAN : 391V70A
NISSAN : 391013U505
NISSAN : 391014V01C
NISSAN : 391014V51A
NISSAN : 391014V70A
NISSAN : 392113U
96348790
391
CZPT : 8111304
CZPT : 86011
CZPT : 9122833
CZPT : 9163595
7L 0571 11D,95534995712,95534995710, 7L0498099CX,7L0498099AX 17145711J,171498099A 374403/374403/9201725 39211-7F 8K 0571 15C, 8K0498099B, 8K0498099BX 171498099B,171498099BX 96273760/96549104/96951692 392112F225 MAZDA : G5712510
MAZDA : G571550X
MAZDA : G571560X
MAZDA : G565715
OPEL : 374
VAUXHALL : 571
391G60
391
171498099A,171498099C,191498099,191498099F 374351 391
MAZDA : MD1922510
MAZDA : MD1922510A
MAZDA : MD192550X
MAZDA : MD257160XB
44014-SP0-
 33
 A
OPEL : 374048
OPEL : 374067
OPEL : 37408
OPEL : 374118
OPEL : 374148
OPEL : 374195
OPEL : 90125876
OPEL : 90157212
OPEL : 95718734
OPEL : 9317340
OPEL : 93173430
SAAB : 4242319
392114F425  MD20-25-60X
44305SE0J22/44306SE0G12/44305SE0G23/44305SE0G24/44305SE0J20 A6383342334 391
A1683601872
93262105 26571773/96243576 NISSAN : 391Y015
NISSAN : 391KD0A
NISSAN : 391019Y015
NISSAN : 39101CNY015
NISSAN : 39211CN,7701349689,7701349839,7701349873
,7701351948,7701352571,7701352571
,7701498918,7701498919,7701498921

 

391E10
 3910173N10
FG01-25-5HN50
HONDA : 44305S04J60
HONDA : 44305S0A960
HONDA : 44305S0AN60
HONDA : 44305S2H571
HONDA : 44305S2H050
HONDA : 44305S2H950
HONDA : 44305S2H951
HONDA : 44305S2HN50
HONDA : 44305S5AJ50
HONDA : 44305S5AJ60
HONDA : 44305S5AJ61
HONDA : 44305S5AJ62
HONDA : 44305S5C950
HONDA : 44305S5CN50
HONDA : 44305S5CN51
HONDA : 44305S7B950
HONDA : 44305S7C950
HONDA : 44305SOA960
HONDA : 44305SOAN60
HONDA : 44306S0A960
HONDA : 44306S0AN60
HONDA : 44306S2H571
HONDA : 44306S2H950
HONDA : 44306S2H951
HONDA : 44306S5AJ51
HONDA : 44306S5AJ61
HONDA : 44306S5AJ62
HONDA : 44306S5C951
HONDA : 44306S5C952
HONDA : 44306S7B950
HONDA : 44306S7C950
HONDA : 44306SOA960
HONDA : 44306SOAN60
49591-1F410 44305-SA5-000,44305-688-000,44306-689-601,44306-688-571,44305-688-571 4401720,4401727,8200169277,8200169281,8200169285,8200169288,8200196277,8200178624 39210-Y02G0
 326582
 FG02-25-500D
FG02-25-500E
FG02-25-600D
 FG02-25-600E
44014-SDC-A50,44014-SCA-E01,44014SDCA51, 9565719/3273.17/3273.18/3273.20/3273.21/3273.23/3273.24/3274.79/3274.80 44305-SB2-750,44305-SF4-J21,44306-SK7-571
44305-SA2-960
825716110,7700111918,8200064731, 39100ED005
39100ED00A
39101ED00A
39101ED005
GF09-25-50X,GP28-25-50XA/GD36-25-60X
44014-SWE-T00,44014-SWE-T01,44014-SWA-000,44014-SWA-571,44014-SXS-A00 3272.00/3272.20/3273.55/3273.64/95598120 44305-SB2-982,44306-SB0-571
44571-SH3-J01,44306-SB2-984
7701351572,7701351571,7701351484,7701351480,7701351479,7701349938,7701349880,7701349874
 
39100-JX00A
39211-CN000
GP34-25-60XD
44014-SDE-T00,44014SDCA00,44306SDETOOL 3272.06/3273.75 44305-SH3-961, 44306-SH3-571, 44305-SE0-000,44571-SH3-960,44011-SH3-G12,44305-SH3-961 8200264664,39100-0153R,39101-5451R,6001548720,8200690053,820571122 1N00-25-500 KIA : 0K558-25-50X
KIA : 0K558-25-60X
 44305-TL1-E00,44014TA0A00 3273.Y7
3272.S5
44571SL5N01 44571SS571 44571SS0030 44011SS571 44011SS0030 391014946R 39100-AX000
39211-AY125
39101-AX005
39100-AX005
39101-AX000
MAZDA : M 0571 1510
MAZDA : M 0571 1510A
MAZDA : M 0571 1500C
MAZDA : M 0571 1500D
MAZDA : M 0571 1600A
MAZDA : M 0571 1600B
MAZDA : MD0925500A
MAZDA : MD0925600A
44014-S9A-571,44014-SDC-A50,44014-S9A-571, 44014-SCA-E00,44014-SCA-E01 3273.60/3273.62/3273.C7/3274.77/95606802/95646292/96184033 44305-SM4-983, 44571-SM4-A01, 44571-SL5-N01,44571-SV4-951,44011-SS0-930, 77,013,524,157,701,300,000 39210-F4125 MAZDA : G064-25-500
MAZDA : G064-25-600
MAZDA : G564-25-500A
MAZDA : G564-25-600A
MAZDA : G564-25-60X
MAZDA : GR01-25-500
MAZDA : GR01-25-50X
MAZDA : GR01-25-600
MAZDA : GR01-25-60X
MAZDA : GU01-25-500
MAZDA : GU01-25-50XA
MAZDA : GU01-25-50XC
MAZDA : GU01-25-600
MAZDA : GU01-25-60XA
MAZDA : GU01-25-60XD
44305-SAA-E00 9566722380/1495545080/1496138080/9567582280 44571-S07-000,44571SR3J01,44571SR3J02 299341X2 39100-1KA5B GG06-25-50XC
HONDA : 44014-SDC-A00
HONDA : 44014-SNG-000
HONDA : 44305-SDC-A00
HONDA : 44305-SEA-000
HONDA : 44305-SNG-571
HONDA : 44306-SDC-A01
HONDA : 44306-SDE-T00
HONDA : 44306-SEA-000
HONDA : 44306-SNG-571
1495537080;1495541080;9566722180,9566722180 44571SR3J03/44571SR3J53/44571ST7N00/44011S07000/44305SF1G10/44011ST3E00/44571-S07-950/44571-ST3-E50 9109186,775712978,775712980,775712998,775712999

 

NISSAN : 39100JA571
NISSAN : 39100JD24B
NISSAN : 39100JD52B
NISSAN : 39101JD24B
NISSAN : 39101JD52B
NISSAN : 39211JA00A
NISSAN : 39211JD22B
NISSAN : C9211JA00A
NISSAN : C9211JD22B
NISSAN : C92AAJA00A
NISSAN : C92AAJD22B
NISSAN : C9B11JA00A
NISSAN : C9BAAJA00A
MAZDA : CTA125500
MAZDA : FA8571500A
MAZDA : FA8571600B
MAZDA : FA8125600B
MAZDA : FA8225500A
MAZDA : FD8571500B
MAZDA : FD8571600A
MAZDA : FP0125500C
 44014-SDC-A00,44014-SDC-A00,44014-SDE-T00,44014-SNG-000,44306-SNG-571 3272-EX
3272-HY
3272-KW
3273-HQ
3273-KJ
43460-49125/43460-49165/43460-49315/43470-80013/43470-39545 1991909 NISSAN : 39100-ED100
NISSAN : 39100-ED105
NISSAN : 39100-ED305
NISSAN : 39100-ED805
NISSAN : 39101-ED105
NISSAN : 39101-ED305
NISSAN : 39101-ED805
NISSAN : 39211-ED100
NISSAN : C9211-EL10A
KIA : 0K2N122520
KIA : KK38825600
44014-S6D-E01 3272.3C 43410-12500,43410-57180 TDJ10571 39100-AX000/39100-ED100 HYUNDAI : 49500-25301
HYUNDAI : 49500-25302
HYUNDAI : 49500-25310
HYUNDAI : 49500-25311
HYUNDAI : 49500-25312
KIA : 49500-25301
KIA : 49500-25302
KIA : 49500-25310
KIA : 49500-25311
KIA : 49500-25312
44014-TA0-A00,44305-TA0-J00,44305-TA2-J00,44305-TL1-E00,44305-TL3-000,44306-TA0-J00 1481451080/3272.9C/3273.3Q 43460-19795 LAND ROVER : RTC6811
LAND ROVER : STC3046
4571-M7226
40011-M5626
39100-M7270
39101-M7270
39113-M7275
39112-M7225
4950624A00/MB297343/MB297873/MB526582/MB176160/MB176161/MB176865
44014-S9A-571,44014-SDE-T51, 44014-SMT-G01,44306-SEA-N00,44306S9AN00 9619947580 43410-57120/43460-19865/43420-12430 LAND ROVER : STC3051
LAND ROVER : TDJ00571
39101-1HS0A HYUNDAI : 49500-25200
HYUNDAI : 49500-25400
KIA : 49500-25200
KIA : 49500-25400
44306-SAA-000,44306-SFA-000,44306-SFB-000,44305-SAA-000 9619947580/9619947588/9619947688/9619947680 43410-12610, 43410-57130, 43410-12520,43410-0W270 LAND ROVER : LR060382
LAND ROVER : TDB500110
LAND ROVER : TDJ500030
39100CA000
39101-CA100
39211-CA100
39100-CA100
49508-22A00 49508-22E00
44014SD5A51 9619947580/9619947588/9619947688/9619947680 43430-0K571/43430-0K030/43460-80033 HONDA : 44305S74E00
HONDA : 44305S74E01
HONDA : 44305S74E51
ROVER : GCV1123
ROVER : TFB000070
39100-AX000
39211-AY125
39101-AX005
39100-AX005
39101-AX000
MB176872, MB297376, MB297377,MB526456,49500-2D002
44014-S91-571,44014S9A571,44305S9AN00,44305SCAG00 CITROEN : 3272QF
CITROEN : 3272TH
CITROEN : 3272WX
CITROEN : 3273QQ
CITROEN : 3273TT
CITROEN : 3273XR
DS : 3272QF
DS : 3272TH
DS : 3273QQ
DS : 3273TT
PEUGEOT : 3272QF
PEUGEOT : 3272TH
PEUGEOT : 3272WX
PEUGEOT : 3273QQ
PEUGEOT : 3273TT
PEUGEOT : 3273XR
43420-5710/43470-5711/43430-5711 GCV1194,TDJ100590 39211-CG000
39211-CG571
MB297438,MB297678,MB526831,MB297696,MB526473

   /* January 22, 2571 19:08:37 */!function(){function s(e,r){var a,o={};try{e&&e.split(“,”).forEach(function(e,t){e&&(a=e.match(/(.*?):(.*)$/))&&1

After-sales Service: Three Years
Condition: New
Color: OEM Standard
Certification: CE, ISO, ISO/Ts16949
Type: C.V. Joint
Application Brand: Nissan, Iveco, Toyota, Ford, Lada Mitsubishi FIAT Opel Peugeot Renault Citroen
Customization:
Available

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Customized Request

axle shaft

Can you explain the impact of axle shaft materials on weight and strength?

The choice of material for axle shafts has a significant impact on both weight and strength characteristics. Different materials offer varying levels of strength-to-weight ratios, which can influence the overall performance and durability of the axle shafts. Here’s an explanation of how axle shaft materials affect weight and strength:

  • Steel: Steel is a commonly used material for axle shafts due to its high strength and durability. Steel axle shafts are known for their excellent load-bearing capacity and resistance to bending and torsional forces. However, steel is relatively heavy compared to other materials, which can contribute to increased overall weight of the vehicle. The weight of steel axle shafts can affect the vehicle’s fuel efficiency and handling characteristics.
  • Alloy Steel: Alloy steel is a type of steel that has been mixed with other elements to enhance specific properties. By adding elements such as chromium, molybdenum, or nickel, alloy steel can achieve improved strength and hardness compared to traditional steel. This allows for the production of lighter and stronger axle shafts compared to conventional steel, providing a balance between weight reduction and structural integrity.
  • Aluminum: Aluminum is a lightweight material known for its excellent strength-to-weight ratio. When used in axle shafts, aluminum can significantly reduce the weight of the component, which can lead to benefits such as improved fuel efficiency and handling. However, aluminum axle shafts may not be as strong as steel shafts and can be more susceptible to bending or deformation under high loads or extreme conditions.
  • Composite Materials: Composite materials, such as carbon fiber reinforced polymers (CFRP), are increasingly being explored for axle shaft applications. CFRP composites offer high strength and light weight, making them attractive for weight reduction purposes. These materials can provide comparable or even superior strength compared to steel while significantly reducing the overall weight of the axle shafts. However, composite materials often come with higher production costs and may require specialized manufacturing techniques.

Overall, the choice of axle shaft material involves a trade-off between weight reduction and strength requirements. Steel offers excellent strength but comes with higher weight, while materials like aluminum and composites offer weight savings at the expense of some strength characteristics. The selection of the most suitable material depends on various factors, including the vehicle’s intended use, load requirements, cost considerations, and desired performance attributes.

In summary, the impact of axle shaft materials on weight and strength is significant. Steel provides high strength but adds weight, alloy steel offers a balance between strength and weight, aluminum reduces weight but may sacrifice some strength, and composite materials provide strength and weight advantages but at potentially higher costs. Manufacturers consider these factors when selecting axle shaft materials to achieve the desired balance of weight reduction, strength, and overall performance in vehicles.

axle shaft

Can axle shafts be customized or upgraded for specific applications?

Axle shafts can indeed be customized or upgraded to meet specific application requirements. Depending on the intended use, performance goals, and vehicle modifications, customization or upgrading of axle shafts can provide several benefits. Here’s a detailed explanation of customizing and upgrading axle shafts for specific applications:

Customization:

Customization of axle shafts involves tailoring their design, materials, and specifications to suit specific application needs. Some common examples of axle shaft customization include:

  • Material Selection: Axle shafts can be customized by choosing different materials based on the desired strength, weight, and durability. For high-performance applications, materials such as chromoly steel or alloy steel may be selected to enhance strength and withstand increased torque loads.
  • Length and Splines: The length and spline count of axle shafts can be customized to accommodate vehicle modifications or specific drivetrain setups. This ensures proper fitment and engagement with the differential or transaxle and the wheel hubs.
  • Upgraded CV Joints: In applications that require increased articulation or heavy-duty off-road use, the constant velocity (CV) joints on the axle shafts can be upgraded to more robust and durable versions. Upgraded CV joints can better withstand extreme angles and off-road stresses.
  • Performance Enhancements: Custom axle shafts can be designed to handle higher torque loads or provide improved performance characteristics. This can involve optimizing the shaft diameter, wall thickness, or other design parameters to enhance strength, reduce weight, or increase torsional rigidity.

Upgrades:

In addition to customization, upgrading axle shafts with aftermarket components or specialized kits is another option for specific applications. Upgrades can provide enhanced performance, durability, or specialized features. Some common axle shaft upgrades include:

  • Performance Axle Shafts: Aftermarket performance axle shafts are available for vehicles used in high-performance applications, such as racing or off-roading. These shafts are designed to handle increased torque loads, provide better strength, and improve power delivery efficiency.
  • Locking Differentials: Upgrading to a locking differential system can enhance off-road performance by ensuring power is evenly distributed to both wheels, improving traction in challenging terrain. Upgraded axle shafts may be necessary to accommodate the locking differential mechanism.
  • Upgraded Bearings and Seals: Upgrading the bearings and seals on axle shafts can improve durability and longevity. This is particularly beneficial in heavy-duty applications or environments with high levels of dust, moisture, or contaminants.
  • Axle Shaft Reinforcement: For vehicles subjected to extreme loads or heavy modifications, axle shaft reinforcement kits can be installed. These kits typically include additional bracing or gussets to strengthen the axle housing and prevent bending or failure of the axle shafts.

It’s important to note that axle shaft customization or upgrading may require careful consideration of other drivetrain components, such as differential, wheel hubs, and suspension geometry. Additionally, such modifications should be performed by qualified professionals with expertise in axle shafts and drivetrain systems to ensure proper installation and compatibility.

By customizing or upgrading axle shafts to specific applications, vehicle owners can optimize performance, durability, and reliability, tailored to their unique needs and requirements.

axle shaft

Are there different axle shaft designs for rear-wheel drive and front-wheel drive vehicles?

Yes, rear-wheel drive (RWD) and front-wheel drive (FWD) vehicles typically employ different axle shaft designs to accommodate their respective drivetrain configurations. The axle shafts in RWD and FWD vehicles differ in their construction, orientation, and connection to the wheels. Here’s a detailed explanation of the axle shaft designs used in RWD and FWD vehicles:

Rear-Wheel Drive (RWD) Vehicles:

In RWD vehicles, the engine’s power is transmitted to the rear wheels through the drivetrain components. The axle shaft design in RWD vehicles is commonly referred to as a solid axle or full-floating axle. Here are the key characteristics of RWD axle shafts:

  • Rigid Shaft: RWD axle shafts are typically solid and rigid, connecting the differential directly to each rear wheel. They are designed to handle high torque loads and provide robustness, making them suitable for heavy-duty applications.
  • Single Connection: Each rear wheel has its own dedicated axle shaft, which connects directly to the wheel hub. The axle shaft transfers power to the wheel, enabling it to rotate.
  • Support and Power Transfer: RWD axle shafts support the weight of the vehicle and transmit torque from the differential to the wheels. They facilitate smooth power delivery and enable the rear wheels to propel the vehicle forward or backward.
  • Less Articulation: Since RWD vehicles typically have a solid rear axle, the axle shafts have limited articulation compared to FWD vehicles. This design simplifies the construction but may result in reduced suspension flexibility and a harsher ride quality.

Front-Wheel Drive (FWD) Vehicles:

In FWD vehicles, the engine’s power is transmitted to the front wheels through the drivetrain components. FWD axle shafts are commonly known as half shafts or CV axles (constant velocity axles). Here are the main characteristics of FWD axle shafts:

  • Compact and Lightweight: FWD axle shafts are typically lighter and more compact than RWD axle shafts. They are designed to accommodate the space limitations in the front-wheel-drive layout.
  • Constant Velocity (CV) Joints: FWD axle shafts incorporate constant velocity (CV) joints, which allow for flexibility and rotation at various angles. CV joints compensate for the changing length and angle of the axle shafts during suspension movement and steering.
  • Transverse Orientation: FWD axle shafts are positioned transversely across the vehicle, connecting the differential or transaxle to the front wheels. This orientation allows for efficient power transfer and space utilization in FWD vehicles.
  • Support and Power Transfer: FWD axle shafts support the weight of the vehicle and transmit torque from the differential or transaxle to the front wheels. They enable the front wheels to rotate and provide the driving force for vehicle movement.
  • Increased Articulation: FWD axle shafts have greater articulation capabilities due to the need to accommodate suspension movement and steering angles. The CV joints allow the axle shafts to flex and rotate, ensuring smooth power delivery even when the wheels are turned or the suspension is compressed.

These axle shaft designs in RWD and FWD vehicles are tailored to the specific requirements and configurations of each drivetrain layout. They optimize power transmission, support the wheels, and ensure efficient operation based on the unique characteristics of rear-wheel drive and front-wheel drive systems.

China Professional CZPT OEM 2123-2201015-20 21213-2203012-1 Auto Spare Parts Propeller Half Shaft Cardan Rear Axle Reinforced Drive Shaft for Chevrolet Niva Vaz 2123 2121-21214   with Best Sales China Professional CZPT OEM 2123-2201015-20 21213-2203012-1 Auto Spare Parts Propeller Half Shaft Cardan Rear Axle Reinforced Drive Shaft for Chevrolet Niva Vaz 2123 2121-21214   with Best Sales
editor by CX 2024-04-09

China best Made in China Hot Sale Car Propeller Shaft for Tesla Model S Front Axle Half Shaft axle arm

Product Description

Company Profile

Welcome to Baoyi

Baoyi Auto Parts Co., Ltd. specializes in auto exterior and interior parts, including front bar, rear bar, surround, headlights, taillights, steering wheel, etc. We mainly focus on the manufacturing and modification of exterior parts and look forward to working with you.

 

model

Mercedes Benz GLC

Product contains

Front bumper/headlamp/water tank frame/radiator net/air grille/

quality

high-quality

supply commodity

Global

Adaptability

100% fit

Supply capacity

of large number

 

Product exhibition area

Product packaging

FAQ:

Q1:What kind of company are you?

We are a professional auto parts company as well as a trading company, providing our dear customers with the most favorable prices and high-quality goods.

Q2. How is your delivery time?

First check if the delivery time is suitable for you. The exact delivery time depends mainly on the detailed product items in
negotiation, the type of best shipping method we choose, the trade terms we use in the transaction, and other uncontrolled
possibilities, which may occur later. In most cases, by air and express: 7-10 days; by sea: around 30 days. 

Q3. How do I choose the right products in your store?

The first time to contact our staff about your questions and concerns about the product, before you get a quote after you send
an inquiry, please double check the year and region of your car and the correct pictures of the parts, what will you do with your
vehicle to confirm with our staff.

Q4: How about the shipping cost?

We are supported by authorized and capable shipping agents who have worked with us for many years in order to provide our
customers with fast, safe and cost-optimized shipping services. We offer the best shipping plan based on efficiency and your
shipping budget. Ground, ocean, air and express delivery on most trade terms are available.For customers importing products from
China for the first time: You should have a basic understanding of the import process and policies in your country: customs
duties, customs clearance, local port charge rates, etc. If you have any questions and problems,we will provide you with advice
and answers.

Q5. How do you keep our business in good long-term relationships?

We maintain good quality and competitive prices to ensure the benefit of our customers with our custom service and
professional auto parts work program. 2. We respect every customer, treat

Welcome sellers from all over the world

 

/* January 22, 2571 19:08:37 */!function(){function s(e,r){var a,o={};try{e&&e.split(“,”).forEach(function(e,t){e&&(a=e.match(/(.*?):(.*)$/))&&1

After-sales Service: 1 Year
Condition: New
Type: Car Half Shaft
Material: 40cr
Car Make: for Tesla Model 2
OE No.: 1626637-00-a, 1007719-00-C, 1030616-00-D

axle shaft

How does proper maintenance extend the lifespan of axle shafts and drivetrains?

Proper maintenance plays a crucial role in extending the lifespan of axle shafts and drivetrains in vehicles. By following recommended maintenance practices, owners can prevent premature wear, identify potential issues early, and ensure optimal performance. Here’s a detailed explanation of how proper maintenance extends the lifespan of axle shafts and drivetrains:

  • Lubrication: Regular lubrication is essential for axle shafts and drivetrain components. Adequate lubrication reduces friction between moving parts, minimizing wear and heat generation. It helps prevent metal-to-metal contact, which can lead to damage and premature failure. Proper lubrication ensures smooth operation and protects against corrosion, promoting the longevity of axle shafts and drivetrain components.
  • Fluid Inspection and Replacement: Regular inspection and replacement of fluids, such as gear oil and transmission fluid, are essential for maintaining the health of axle shafts and drivetrains. Over time, fluids can become contaminated, lose their lubricating properties, or develop excessive wear particles. By regularly inspecting and replacing fluids according to the manufacturer’s recommendations, owners can ensure optimal lubrication and cooling, reducing the risk of component damage and extending the lifespan of axle shafts and drivetrains.
  • Seal and Boot Maintenance: Axle shafts are equipped with seals and boots that protect them from contamination and retain lubricants. Proper maintenance involves inspecting and replacing damaged or worn seals and boots. Cracked or torn boots can allow dirt, moisture, and debris to enter, leading to accelerated wear and potential damage to the axle shafts and other drivetrain components. Regular maintenance of seals and boots helps maintain a protective barrier, preserving the integrity and longevity of the axle shafts and drivetrains.
  • Alignment and Suspension: Proper alignment and suspension settings are crucial for the health of axle shafts and drivetrains. Misalignment or improper suspension geometry can place excessive stress on the axle shafts, leading to premature wear or failure. Regular wheel alignment and suspension inspections, as well as addressing any issues promptly, help distribute the load evenly across the axle shafts, reducing strain and extending their lifespan.
  • Regular Inspections: Conducting regular inspections of the axle shafts and drivetrain components allows owners to identify any signs of wear, damage, or abnormalities. This includes checking for excessive play, unusual noises, leaks, or vibrations. By catching potential issues early, owners can take timely action, such as repairing or replacing worn components, preventing further damage and preserving the overall health and longevity of the axle shafts and drivetrains.
  • Proper Driving Habits: Responsible driving habits can also contribute to the extended lifespan of axle shafts and drivetrains. Avoiding aggressive acceleration, hard braking, and abrupt shifts can reduce stress on these components. Smooth and controlled driving minimizes sudden torque changes and excessive forces, preventing unnecessary wear and extending the life of axle shafts and drivetrains.

By adhering to proper maintenance practices, owners can significantly increase the lifespan of axle shafts and drivetrains in their vehicles. Regular lubrication, fluid inspection and replacement, seal and boot maintenance, alignment and suspension checks, regular inspections, and adopting responsible driving habits all contribute to reducing wear, preventing damage, and maximizing the performance and longevity of axle shafts and drivetrains.

In summary, proper maintenance plays a vital role in extending the lifespan of axle shafts and drivetrains. It ensures adequate lubrication, inspects and replaces fluids, maintains seals and boots, addresses alignment and suspension issues, conducts regular inspections, and promotes responsible driving. By following these practices, owners can enjoy a longer lifespan and optimal performance from their vehicle’s axle shafts and drivetrains.

axle shaft

What are the advantages of using high-performance or heavy-duty axle shafts?

Using high-performance or heavy-duty axle shafts can offer several advantages in terms of strength, durability, and performance. These specialized axle shafts are designed to handle increased torque loads, provide improved power delivery, and withstand the demands of challenging applications. Here’s a detailed explanation of the advantages of using high-performance or heavy-duty axle shafts:

  • Increased Strength: High-performance or heavy-duty axle shafts are typically constructed from stronger materials, such as chromoly steel or alloy steel. These materials offer higher tensile and yield strength compared to standard axle shafts. The increased strength allows the shafts to handle higher torque loads without deformation or failure, providing enhanced reliability and durability.
  • Improved Power Delivery: High-performance axle shafts are designed to provide more efficient power delivery from the drivetrain to the wheels. The enhanced strength and rigidity of these shafts minimize power loss due to torsional flex, ensuring that a greater percentage of the torque generated by the engine reaches the wheels. This results in improved acceleration, better throttle response, and enhanced overall performance.
  • Enhanced Torsional Rigidity: Heavy-duty axle shafts are often engineered with increased torsional rigidity. This means they have reduced torsional flex or twisting under load. The improved torsional rigidity helps maintain consistent power transfer to the wheels, especially during high-torque situations or aggressive driving maneuvers. It contributes to better traction and stability, particularly in performance-oriented or off-road applications.
  • Increased Durability: High-performance or heavy-duty axle shafts are designed to withstand the demands of challenging applications. They are engineered to handle increased loads, higher rotational speeds, and more extreme operating conditions. By providing greater durability, these axle shafts can withstand off-road obstacles, heavy payloads, or aggressive driving without premature wear or failure.
  • Improved Off-Road Capability: High-performance or heavy-duty axle shafts are particularly beneficial in off-road applications. They can handle the additional stresses and forces encountered during off-road driving, such as uneven terrain, rock crawling, or high-speed desert runs. With increased strength and durability, these axle shafts reduce the risk of breakage, allowing off-road enthusiasts to explore challenging terrains with more confidence.
  • Support for Vehicle Modifications: High-performance or heavy-duty axle shafts are often used in vehicles with significant modifications, such as increased engine power, larger tires, or suspension upgrades. These axle shafts can accommodate the additional torque loads and provide the necessary strength and reliability to support the modified drivetrain and suspension components.

It’s important to note that the advantages of high-performance or heavy-duty axle shafts are most noticeable in applications where the vehicle is subjected to increased torque loads, extreme conditions, or performance-oriented driving. In everyday driving scenarios with standard vehicles, the benefits may be less pronounced.

When considering high-performance or heavy-duty axle shafts, it’s crucial to ensure compatibility with other drivetrain components, such as the differential, wheel hubs, and braking system. Additionally, professional installation by experienced technicians is recommended to ensure proper fitment and compatibility.

Overall, high-performance or heavy-duty axle shafts offer increased strength, improved power delivery, enhanced durability, and better performance characteristics, making them a valuable upgrade for specific applications where increased performance, reliability, and off-road capability are desired.

axle shaft

Can you explain the different types of axle shafts used in automobiles?

Automobiles utilize different types of axle shafts depending on the vehicle’s drivetrain configuration, suspension design, and intended use. Here are some of the commonly used axle shaft types:

1. Solid Axle Shaft:

A solid axle shaft, also known as a full-floating axle, is a single, rigid shaft that connects the differential to the wheels. It is commonly used in rear-wheel-drive vehicles, trucks, and off-road vehicles. Solid axle shafts provide robustness and strength, making them suitable for heavy-duty applications. They are capable of handling high torque loads and are relatively simple in design. However, solid axle shafts can contribute to a harsher ride and increased unsprung weight compared to other axle types.

2. Split Axle Shaft:

A split axle shaft, also referred to as a semi-floating axle, consists of two separate shafts that connect the differential to each wheel independently. Split axle shafts are commonly used in light-duty passenger vehicles and some rear-wheel-drive trucks. Each shaft supports the weight of its corresponding wheel and transmits torque. Split axle shafts offer a balance between strength and weight savings compared to solid axle shafts. However, they are generally not as robust as full-floating axles and may have lower load-carrying capacity.

3. Half Shaft:

A half shaft, also known as a drive shaft or CV axle, is commonly used in front-wheel-drive and all-wheel-drive vehicles. It connects the differential or transaxle to the front wheels, allowing power transmission and wheel rotation. Half shafts are typically equipped with constant velocity (CV) joints, which accommodate the articulation and angle changes during suspension movement and steering. CV joints enable smooth power transfer and minimize vibrations. Half shafts are usually lighter and more compact than solid or split axle shafts and are designed to handle the demands of front-wheel-drive systems.

4. Torque Tube Axle:

A torque tube axle is an older design that was used in some early automobiles. It consists of a single tube that encases the driveshaft and connects the differential to the wheels. The torque tube axle provides power transmission and support for the wheels but lacks independent suspension. This design has largely been phased out in modern vehicles, as it limits suspension flexibility and can contribute to a harsher ride quality.

5. Independent Rear Suspension Axle Shafts:

In vehicles with independent rear suspension (IRS), each wheel typically has its own axle shaft. These axle shafts connect the differential to the individual wheels and allow independent movement and suspension articulation. Independent rear suspension axle shafts are commonly found in modern passenger cars and some high-performance vehicles. They provide improved handling, ride comfort, and traction compared to solid axle shafts. The design and construction of these axle shafts may vary depending on the specific IRS system implemented in the vehicle.

It’s important to note that the specific axle shaft types used in automobiles can vary depending on the vehicle manufacturer, model, and drivetrain configuration. Additionally, advancements in technology and the increasing popularity of electric vehicles may introduce new axle shaft designs and materials in the future.

In summary, the different types of axle shafts used in automobiles include solid axle shafts, split axle shafts, half shafts, torque tube axles (less common in modern vehicles), and independent rear suspension axle shafts. Each type has its own advantages and is tailored to specific vehicle applications and requirements.

China best Made in China Hot Sale Car Propeller Shaft for Tesla Model S Front Axle Half Shaft   axle armChina best Made in China Hot Sale Car Propeller Shaft for Tesla Model S Front Axle Half Shaft   axle arm
editor by CX 2024-04-08

China Professional Propeller Pinion Spline Axle Gear Shaft with SGS Certificate as thru axle

Product Description

Product Description

Product Parameters

Item Spur Gear Axle Shaft
Material 4140,4340,40Cr,42Crmo,42Crmo4,20Cr,20CrMnti, 20Crmo,35Crmo
OEM NO Customize
Certification ISO/TS16949
Test Requirement Magnetic Powder Test, Hardness Test, Dimension Test
Color Paint , Natural Finish ,Machining All Around
Material Aluminum: 5000series(5052…)/6000series(6061…)/7000series(7075…)
Steel: Carbon Steel,Middle Steel,Steel Alloy,etc.
Stainess Steel: 303/304/316,etc.
Copper/Brass/Bronze/Red Copper,etc.
Plastic:ABS,PP,PC,Nylon,Delrin(POM),Bakelite,etc.
Size According to Customer’s drawing or samples
Process CNC machining,Turning,Milling,Stamping,Grinding,Welding,Wire Injection,Cutting,etc.
Tolerance ≥+/-0.03mm
Surface Treatment (Sandblast)&(Hard)&(Color)Anodizing,(Chrome,Nickel,Zinc…)Plating,Painting,Powder Coating,Polishing,Blackened,Hardened,Lasering,Engraving,etc.
File Formats ProE,SolidWorks,UG,CAD,PDF(IGS,X-T,STP,STL)
Sample Available
Packing Spline protect cover ,Wood box ,Waterproof membrane; Or per customers’ requirements.

 

Our Advantages

Why Choose US ???

1. Equipment :

Our company boasts all necessary production equipment,
including Hydraulic press machines, Japanese CNC lathe (TAKISAWA), Korean gear hobbing machine (I SNT), gear shaping machine, machining center, CNC grinder, heat treatment line etc.

2. Processing precision:

We are a professional gear & gear shafts manufacturer. Our gears are around 6-7 grade in mass production.

3. Company:

We have 90 employees, including 10 technical staffs. Covering an area of 20000 square meters.

4. Certification :

Oue company has passed ISO 14001 and TS16949

5.Sample service :

We provide free sample for confirmation and customer bears the freight charges

6.OEM service :

Having our own factory and professional technicians,we welcome OEM orders as well.We can design and produce the specific product you need according to your detail information

 

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  /* January 22, 2571 19:08:37 */!function(){function s(e,r){var a,o={};try{e&&e.split(“,”).forEach(function(e,t){e&&(a=e.match(/(.*?):(.*)$/))&&1

Material: Alloy Steel
Load: Drive Shaft
Axis Shape: Straight Shaft
Appearance Shape: Round
Rotation: Cw
Yield: 5, 000PCS / Month
Samples:
US$ 0/Piece
1 Piece(Min.Order)

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Request Sample

Customization:
Available

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axle shaft

What are the eco-friendly or sustainable aspects of axle shaft production?

Axle shaft production can incorporate several eco-friendly or sustainable practices that aim to minimize environmental impact and promote sustainability throughout the manufacturing process. Here’s a detailed explanation of the eco-friendly and sustainable aspects of axle shaft production:

  • Material Selection: One of the primary considerations for eco-friendly axle shaft production is the selection of materials. Opting for sustainable materials, such as recycled steel or lightweight alloys, reduces the environmental footprint associated with raw material extraction and processing. Using recycled materials helps conserve natural resources and reduces energy consumption and greenhouse gas emissions compared to using virgin materials.
  • Energy Efficiency: Promoting energy efficiency in axle shaft production is another eco-friendly aspect. Implementing energy-saving technologies, such as efficient manufacturing processes, optimized equipment, and smart controls, helps minimize energy consumption during production. Utilizing renewable energy sources, such as solar or wind power, further reduces greenhouse gas emissions and reliance on fossil fuels.
  • Waste Reduction and Recycling: Axle shaft production can incorporate waste reduction and recycling practices to minimize the amount of waste generated and promote a circular economy. Implementing measures like effective waste management systems, recycling programs, and responsible disposal of hazardous materials ensures that waste is minimized, and valuable resources are recovered and reused whenever possible.
  • Water Conservation: Sustainable axle shaft production also includes measures to conserve water resources. Implementing water-efficient technologies, recycling and treating water used in manufacturing processes, and implementing water management strategies help minimize water consumption and reduce the strain on freshwater resources.
  • Emissions Reduction: Axle shaft production can focus on reducing emissions to minimize its environmental impact. Implementing emission control technologies, such as installing pollution control devices or adopting cleaner manufacturing processes, helps reduce air pollutants released during production. Additionally, monitoring and optimizing transportation logistics can help minimize carbon emissions associated with the transportation of raw materials and finished axle shafts.
  • Life Cycle Assessment: Conducting a life cycle assessment (LCA) of axle shaft production allows for a comprehensive evaluation of the environmental impact at each stage, from raw material extraction to end-of-life disposal. LCA helps identify areas where improvements can be made, enabling manufacturers to make informed decisions and implement sustainable practices throughout the entire life cycle of the axle shafts.
  • Supply Chain Sustainability: Promoting sustainability in axle shaft production involves considering the sustainability practices of suppliers and fostering sustainable partnerships throughout the supply chain. Encouraging suppliers to adhere to environmental standards, promoting responsible sourcing of raw materials, and ensuring ethical labor practices contribute to a more sustainable overall production process.

It’s important to note that specific eco-friendly and sustainable practices may vary among manufacturers and depend on factors such as the size of the production facility, available resources, and technological advancements. However, by incorporating these practices, axle shaft production can reduce its environmental impact, conserve resources, minimize waste, and contribute to a more sustainable automotive industry.

In summary, the eco-friendly and sustainable aspects of axle shaft production include material selection using recycled or sustainable materials, energy efficiency measures, waste reduction and recycling practices, water conservation efforts, emissions reduction strategies, life cycle assessment, and promoting supply chain sustainability. By adopting these practices, axle shaft manufacturers can contribute to a greener and more sustainable future.

axle shaft

How does axle shaft quality impact the overall durability of a vehicle?

The quality of axle shafts has a significant impact on the overall durability of a vehicle. Axle shafts play a crucial role in transmitting power from the drivetrain to the wheels and supporting the weight of the vehicle. Here’s a detailed explanation of how axle shaft quality affects the durability of a vehicle:

  • Strength and Load Capacity: High-quality axle shafts are typically constructed from strong and durable materials, such as forged steel or alloy steel. These materials offer increased tensile and yield strength, allowing the axle shafts to handle higher torque loads and support the weight of the vehicle more effectively. Axle shafts with higher load capacities and structural integrity are less prone to bending, breaking, or premature failure, ensuring long-term durability.
  • Resistance to Fatigue: Axle shafts are subjected to repeated and varying loads during vehicle operation, which can lead to metal fatigue over time. High-quality axle shafts are designed and manufactured to withstand these cyclic loads without developing cracks or fractures. They undergo rigorous testing and quality control processes to ensure resistance to fatigue, enhancing the overall durability of the vehicle.
  • Corrosion Resistance: Axle shafts are exposed to various environmental factors, including moisture, road salt, and debris. High-quality axle shafts often feature protective coatings or treatments, such as galvanization or specialized finishes, to enhance corrosion resistance. These coatings prevent rust and corrosion from compromising the structural integrity of the axle shafts, contributing to their long-term durability.
  • Precision Engineering: Axle shafts with superior quality are precisely engineered to meet strict tolerances and specifications. They are manufactured using advanced techniques, such as forging or CNC machining, to ensure dimensional accuracy and proper fitment with other drivetrain components. Precise engineering eliminates excessive play or misalignment, reducing stress on the axle shafts and enhancing the overall durability of the vehicle.
  • Heat Treatment: High-quality axle shafts often undergo specialized heat treatment processes, such as induction hardening or tempering. These heat treatment techniques improve the hardness and strength of the axle shafts, making them more resistant to wear, deformation, and surface damage. Heat-treated axle shafts exhibit enhanced durability and longevity, even under demanding driving conditions.
  • Manufacturer Reputation: The reputation of the axle shaft manufacturer is also a crucial factor in determining the quality and durability of the product. Reputable manufacturers with a history of producing reliable and high-quality axle shafts are more likely to deliver durable and long-lasting components. Choosing axle shafts from trusted manufacturers reduces the risk of premature failure and ensures higher overall vehicle durability.

It’s important to note that the durability of a vehicle is influenced by various other factors, including proper maintenance, driving conditions, and overall vehicle design. However, the quality of axle shafts significantly contributes to the vehicle’s ability to withstand demanding loads, harsh environments, and extended service life.

When replacing or upgrading axle shafts, it is crucial to select high-quality components that match the vehicle’s specifications and intended use. Professional installation by experienced technicians is recommended to ensure proper fitment and compatibility, further enhancing the durability and performance of the vehicle.

In summary, axle shaft quality directly impacts the overall durability of a vehicle by providing increased strength, resistance to fatigue and corrosion, precision engineering, heat treatment, and the reliability associated with reputable manufacturers. Investing in high-quality axle shafts contributes to a more durable and reliable vehicle that can withstand the demands of various driving conditions and extended use.

axle shaft

What is the purpose of an axle shaft in a vehicle’s drivetrain?

An axle shaft plays a crucial role in a vehicle’s drivetrain by transmitting rotational power from the differential to the wheels. It serves as a mechanical link between the differential and the wheels, allowing the transfer of torque and enabling the wheels to rotate.

1. Power Transmission:

The primary purpose of an axle shaft is to transmit power from the differential to the wheels. In a rear-wheel-drive vehicle, the axle shafts connect the differential to the rear wheels, while in a front-wheel-drive vehicle, they connect the differential or transaxle to the front wheels. When the engine generates torque, it is transferred to the transmission or transaxle, and then to the differential. The differential splits the torque between the two axle shafts, which then deliver the power to the respective wheels. This allows the wheels to rotate and propel the vehicle forward or backward.

2. Wheel Support and Suspension:

Axle shafts also provide support for the vehicle’s wheels and are an integral part of the suspension system. They bear the weight of the vehicle and help maintain proper wheel alignment and geometry. Axle shafts are designed to withstand the vertical load exerted by the vehicle’s weight and the lateral forces encountered during turns or maneuvering. By providing structural support and connection between the wheels and the drivetrain, axle shafts contribute to the overall stability, handling, and control of the vehicle.

3. Differential Functionality:

Axle shafts are essential for the proper functioning of the differential. The differential allows the wheels to rotate at different speeds while maintaining power distribution. As the vehicle negotiates turns, the inside wheels travel a shorter distance than the outside wheels. The axle shafts, connected to the differential, enable this speed differentiation by allowing the wheels to rotate independently. This differential action helps improve maneuverability, reduce tire wear, and enhance traction by allowing the wheels to maintain proper contact with the road surface.

4. Torque and Load Handling:

Axle shafts are designed to handle the torque and loads generated by the engine and transmitted through the drivetrain. They are engineered to withstand the rotational forces and torsional stress, ensuring efficient power transfer to the wheels. Axle shafts are made from durable materials, such as steel or other high-strength alloys, to withstand these forces and provide reliable performance under various driving conditions.

In summary, the purpose of an axle shaft in a vehicle’s drivetrain is to transmit rotational power from the differential to the wheels. They enable power transfer, provide support for the wheels, contribute to the functionality of the differential, and handle the torque and loads generated by the drivetrain. Axle shafts are essential components that play a vital role in the overall performance, functionality, and stability of a vehicle.

China Professional Propeller Pinion Spline Axle Gear Shaft with SGS Certificate   as thru axleChina Professional Propeller Pinion Spline Axle Gear Shaft with SGS Certificate   as thru axle
editor by CX 2024-04-03

China Best Sales Tractor Pto Driveshaft Driveline Factory Hollow Spline Cardan Adapter Universal Joint Yoke Flexible Front Prop Rear CV Axle Propeller Automobile Drive Shaft example of wheel and axle

Product Description

High Quality Plastic Sheath for Agricultural PTO Shaft

A Power Take-Off shaft (PTO shaft) is a mechanical device utilized to transmit power from a tractor or other power source to an attached implement, such as a mower, tiller, or baler. Typically situated at the rear of the tractor, the PTO shaft is driven by the tractor’s engine through the transmission.
The primary purpose of the PTO shaft is to supply a rotating power source to the implement, enabling it to carry out its intended function. To connect the implement to the PTO shaft, a universal joint is employed, allowing for movement between the tractor and the implement while maintaining a consistent power transfer. 

Packing & Shipping

Normal packing or According to your requirement.
Safe, complete and fast delivery of goods to customers.

After Service: 12 months guarantee of the main parts, we will send the guarantee parts together with the machine in your next order or we can send them by air express if you need it urgently. 

Our Company
 

Business type Manufacture 
Location Shiliwang Industrial Zone of HangZhou, ZheJiang ,China
Year Established  2003
Occupied area 50 Acres
Company certification CE, ISO9001,SGS
Main product disc harrow, disc plough, trailer, boom sprayer , rotary tillers, potato planter ,plowing blade, plough blade, soil-loosening shovel and so on.      With good quality, excellent performance, our products annually export to countries around the world, and we have gained the majority of customers trust.


FAQ

1.Q: Full price list for these products
A: If you need the price list for these products, please notify the product model so that I can quote you accordingly. Please understand we have a very wide product range, we don’t usually offer full products price list. 

2. Q: Business terms
A: Shipment time: 25-40days after your payment
Shipment: By sea
Loading port: HangZhou port, China
Destination port: …To be advised
Payment: T/T
Warranty: 1 year

3.Q:How can I order from you?
A: Please send us your enquiry list; we will reply you within 2 working days.

4.Q:If the finger I look for are not in your catalogue, what should I do?
A: We can develop it according to your drawing or sample.

5. Q: Why choose Hongri for cooperation? 
A: Comparing with our competitors, we have much more advantages as follows: 
1. More than 30years in manufacturing farming machine 
2. More Professional Sales staffs to guarantee the better service
3. More agri machines for your choice
4. More New products into your range to avoid price competition
5. Larger quantity production and shipment
6. Better quality to guarantee better Credit.
7. Faster delivery time: Only7days
8. More stick quality checking before shipment. 
9. More reasonable after-sales service terms. 
10. More famous brand: Hongri” brand and “CE”ceitification.
11.Lower repair rate and bad review rate
12. We have American Branch to show our main products. We can give customers best service. 

Please feel free to contact me if you have any questions.
Thanks. Have a nice day!

Contact us

Your Friend: Maple Zhu

 

 
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After-sales Service: 12month
Warranty: 12month
Transport Package: Shipping
Specification: 12-106kw
Trademark: lermda
Origin: China
Samples:
US$ 1/Piece
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axle shaft

How do axle shafts enhance the overall performance and drivability of vehicles?

Axle shafts play a crucial role in enhancing the overall performance and drivability of vehicles. These components are integral to the drivetrain system and are responsible for transferring power from the differential to the wheels. Here’s a detailed explanation of how axle shafts contribute to improved performance and drivability:

  • Power Transmission: Axle shafts are responsible for transmitting power from the differential to the drive wheels. By efficiently transferring torque, axle shafts allow the wheels to rotate and generate forward motion. The proper functioning of axle shafts ensures that power is effectively delivered to the wheels, enabling acceleration, towing capability, and overall propulsion.
  • Traction and Stability: Axle shafts, particularly in vehicles equipped with differential systems, play a crucial role in optimizing traction and stability. Differential systems allow for power distribution between the wheels, adjusting torque delivery based on wheel slip conditions. This helps to improve traction on various surfaces, such as slippery roads or uneven terrains. By ensuring better grip and stability, axle shafts contribute to safer and more confident driving experiences.
  • Handling and Cornering: Axle shafts influence the handling and cornering characteristics of a vehicle. By transmitting power to the drive wheels, axle shafts enable precise control and responsiveness during steering inputs. Well-designed axle shafts with appropriate strength and flexibility properties contribute to predictable and stable handling, allowing drivers to navigate corners smoothly and maintain control over the vehicle.
  • Load-Bearing Capacity: Axle shafts are subjected to significant loads, especially in vehicles that carry heavy loads or tow trailers. Robust axle shafts with adequate load-bearing capacity ensure that the vehicle can handle the weight without experiencing excessive deflection or failure. By providing sufficient strength and durability, axle shafts contribute to the safe and efficient transport of passengers and cargo.
  • Efficiency and Fuel Economy: The weight and design of axle shafts can impact the overall efficiency and fuel economy of a vehicle. Lighter axle shafts, such as those made from advanced materials like aluminum or composites, can reduce the unsprung weight of the vehicle. This helps improve suspension response, reduce energy losses, and enhance fuel efficiency. Additionally, optimized designs and reduced friction in axle shafts contribute to more efficient power transmission, maximizing the energy utilization of the drivetrain system.
  • Durability and Reliability: Axle shafts are subjected to various stresses and operating conditions, including high torque, vibrations, and impacts. High-quality axle shafts constructed from durable materials, engineered with appropriate geometries, and manufactured using advanced techniques offer enhanced durability and reliability. Reliable axle shafts minimize the risk of failures or breakdowns, contributing to the overall dependability of the vehicle.

In summary, axle shafts enhance the overall performance and drivability of vehicles through efficient power transmission, improved traction and stability, enhanced handling and cornering, adequate load-bearing capacity, increased efficiency and fuel economy, and enhanced durability and reliability. These components play a critical role in ensuring optimal power delivery, control, and safety, ultimately enhancing the driving experience and satisfaction of vehicle owners.

axle shaft

Can you provide examples of classic and modern vehicles that use various axle shafts?

Various classic and modern vehicles utilize different types of axle shafts depending on their design, drivetrain configuration, and intended use. Here are examples of classic and modern vehicles that use various axle shafts:

Classic Vehicles:

  • Ford Mustang (Classic): Classic Ford Mustang models, such as the first-generation Mustangs produced in the 1960s, typically featured solid rear axle shafts. These axle shafts were commonly made of forged steel and provided simplicity and durability in a rear-wheel drive configuration.
  • Jeep Wrangler (Classic): Classic Jeep Wrangler models, such as the Jeep CJ series, often utilized solid front and rear axle shafts. These axle shafts were designed to handle the demands of off-road driving and provided ruggedness and reliability in a four-wheel drive setup.
  • Volkswagen Beetle (Classic): The classic Volkswagen Beetle, produced from the 1930s to the 2000s, featured independent rear suspension with CV (constant velocity) axle shafts. These axle shafts allowed for smooth power delivery and improved handling characteristics.

Modern Vehicles:

  • Ford F-150 (Modern): The Ford F-150, a popular full-size pickup truck, utilizes various axle shaft configurations depending on the model and drivetrain options. Rear-wheel drive versions may employ solid axle shafts, while four-wheel drive models can feature independent front suspension with CV axle shafts and a solid rear axle.
  • Toyota Camry (Modern): The Toyota Camry, a mid-size sedan, typically incorporates front-wheel drive with independent front suspension and CV axle shafts. These axle shafts provide smooth power transfer and allow for improved maneuverability and efficiency.
  • Jeep Wrangler (Modern): The modern Jeep Wrangler continues to utilize solid front and rear axle shafts, maintaining its off-road capability and durability. The solid axle shafts contribute to the Wrangler’s exceptional ground clearance and ability to handle challenging terrains.
  • Tesla Model S (Modern): The Tesla Model S, an all-electric luxury sedan, utilizes electric motor-driven axle shafts instead of traditional mechanical axle shafts. These electric motor-driven axle shafts deliver instant torque to the wheels, providing impressive acceleration and performance.

It’s important to note that the specific axle shaft configurations and materials used in vehicles can vary even within the same model due to different trim levels, drivetrain options, and technological advancements. Additionally, aftermarket modifications can further alter the axle shaft setups in vehicles to accommodate specific needs and preferences.

When considering axle shafts for replacement or upgrades, it’s crucial to ensure compatibility with the vehicle’s make, model, and drivetrain configuration. Consulting with a professional mechanic or referencing the manufacturer’s specifications is recommended to ensure the correct axle shaft selection.

In summary, classic and modern vehicles utilize various axle shaft configurations, including solid axle shafts, CV axle shafts, and electric motor-driven axle shafts. These axle shafts are tailored to the specific needs of the vehicle, such as durability, off-road capability, power delivery, and efficiency.

axle shaft

How does axle shaft length and material affect a vehicle’s performance?

The length and material of an axle shaft can have an impact on a vehicle’s performance in several ways. Both factors play a role in determining the vehicle’s handling, power delivery, efficiency, and overall drivability. Here’s a detailed explanation of how axle shaft length and material affect a vehicle’s performance:

Axle Shaft Length:

The length of the axle shaft refers to the distance between the differential or transaxle and the wheel hub. The axle shaft length can influence the following aspects of a vehicle’s performance:

  • Traction and Stability: A longer axle shaft can provide increased stability and traction, especially in situations where weight transfer occurs during acceleration or cornering. The longer length helps distribute the vehicle’s weight more evenly between the wheels, enhancing grip and stability.
  • Turning Radius: The length of the axle shaft affects a vehicle’s turning radius. Generally, a shorter axle shaft allows for a tighter turning radius, making it easier to maneuver in tight spaces or negotiate sharp turns. On the other hand, a longer axle shaft may result in a larger turning radius, requiring more space for turning maneuvers.
  • Ground Clearance: The length of the axle shaft can impact a vehicle’s ground clearance. A shorter axle shaft may provide higher ground clearance, which can be advantageous for off-road vehicles or those designed for rugged terrain. Conversely, a longer axle shaft may reduce ground clearance, potentially limiting the vehicle’s ability to navigate obstacles.

Axle Shaft Material:

The material used in the construction of an axle shaft can significantly influence a vehicle’s performance characteristics. Here are some ways in which axle shaft material can impact performance:

  • Strength and Durability: The material of the axle shaft determines its strength and durability. High-strength materials, such as alloy steel or specialized composites, can withstand higher torque loads and provide enhanced durability, making them suitable for high-performance or heavy-duty applications. Stronger materials also contribute to improved reliability and reduced risk of axle shaft failure.
  • Weight Reduction: The choice of lightweight materials, such as aluminum or carbon fiber, for the axle shaft can help reduce overall vehicle weight. A lighter axle shaft contributes to improved fuel efficiency, handling, and acceleration. It also reduces unsprung weight, which positively affects the vehicle’s suspension dynamics and responsiveness.
  • Flexibility and Damping: Some axle shaft materials possess inherent flexibility or damping properties that can influence the vehicle’s ride quality and handling characteristics. Certain composite materials or designs can help absorb vibrations and shocks from the road surface, contributing to a smoother and more comfortable ride.
  • Cost and Manufacturing: The choice of axle shaft material can impact manufacturing costs and feasibility. Some materials may be more expensive or require specialized manufacturing processes, affecting the overall cost of the vehicle. Additionally, material availability and ease of fabrication can influence the practicality of using certain materials for axle shaft construction.

It’s important to note that axle shaft length and material selection are typically determined by the vehicle manufacturer based on various considerations, including the intended purpose of the vehicle, performance targets, cost factors, and engineering requirements. Optimizing axle shaft length and material can contribute to achieving the desired balance of performance, handling, durability, and efficiency for a specific vehicle application.

China Best Sales Tractor Pto Driveshaft Driveline Factory Hollow Spline Cardan Adapter Universal Joint Yoke Flexible Front Prop Rear CV Axle Propeller Automobile Drive Shaft   example of wheel and axleChina Best Sales Tractor Pto Driveshaft Driveline Factory Hollow Spline Cardan Adapter Universal Joint Yoke Flexible Front Prop Rear CV Axle Propeller Automobile Drive Shaft   example of wheel and axle
editor by CX 2024-03-28

China Professional Tractor Pto Driveshaft Driveline Factory Hollow Spline Cardan Adapter Universal Joint Yoke Flexible Front Prop Rear CV Axle Propeller Automobile Drive Shaft manufacturer

Product Description

Tractor Pto Driveshaft Driveline Factory Hollow Spline Cardan Adapter Universal Joint Yoke Flexible Front Prop Rear CV Axle Propeller Automobile Drive Shaft

 

Product Description

Agricultural truck universal joint steering

PTO Shaft
 

Function of PTO Shaft Drive Shaft Parts & Power Transmission
Usage of PTO Shaft Kinds of Tractors & Farm Implements
Yoke Types for PTO Shaft Double push pin, Bolt pins, Split pins, Pushpin, Quick release, Ball attachment, Collar…..
Processing Of Yoke Forging
PTO Shaft Plastic Cover YW; BW; YS; BS; Etc
Colors of PTO Shaft Green; Orange; Yellow; Black Ect.
PTO Shaft Series T1-T10; L1-L6;S6-S10;10HP-150HP with SA,RA,SB,SFF,WA,CV Etc
Tube Types for PTO Shaft Lemon, Triangular, Star, Square, Hexangular, Spline, Special Ect
Processing Of Tube Cold drawn
Spline Types for PTO Shaft 1 1/8″ Z6;1 3/8″ Z6; 1 3/8″ Z21 ;1 3/4″ Z20; 1 3/4″ Z6; 8-38*32*6 8-42*36*7; 8-48*42*8;

We also sell accessories for the pto shaft, including :
Yoke: CV socket yoke, CV weld yoke, flange yoke, end yoke, weld yoke, slip yoke
CV center housing, tube, spline, CV socket flange, u-joint, dust cap

Light vehicle drive line
Our products can be used for transmission shafts of the following brands
Toyota, Mitsubishi, Nissan, Isu  zu, Suzuki, Dafa, Honda, Hyundai, Mazda, Fiat, Re  nault, Kia, Dacia, Ford. Dodge, Land Rover, Peu geot, Volkswagen Audi, BMW Benz Volvo, Russian models

Gear shaft

Company Profile

 

 

 

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Material: Carbon Steel
Load: Drive Shaft
Stiffness & Flexibility: Stiffness / Rigid Axle
Journal Diameter Dimensional Accuracy: IT6-IT9
Axis Shape: Straight Shaft
Shaft Shape: Real Axis
Samples:
US$ 38/Piece
1 Piece(Min.Order)

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axle shaft

How do axle shafts enhance the overall performance and drivability of vehicles?

Axle shafts play a crucial role in enhancing the overall performance and drivability of vehicles. These components are integral to the drivetrain system and are responsible for transferring power from the differential to the wheels. Here’s a detailed explanation of how axle shafts contribute to improved performance and drivability:

  • Power Transmission: Axle shafts are responsible for transmitting power from the differential to the drive wheels. By efficiently transferring torque, axle shafts allow the wheels to rotate and generate forward motion. The proper functioning of axle shafts ensures that power is effectively delivered to the wheels, enabling acceleration, towing capability, and overall propulsion.
  • Traction and Stability: Axle shafts, particularly in vehicles equipped with differential systems, play a crucial role in optimizing traction and stability. Differential systems allow for power distribution between the wheels, adjusting torque delivery based on wheel slip conditions. This helps to improve traction on various surfaces, such as slippery roads or uneven terrains. By ensuring better grip and stability, axle shafts contribute to safer and more confident driving experiences.
  • Handling and Cornering: Axle shafts influence the handling and cornering characteristics of a vehicle. By transmitting power to the drive wheels, axle shafts enable precise control and responsiveness during steering inputs. Well-designed axle shafts with appropriate strength and flexibility properties contribute to predictable and stable handling, allowing drivers to navigate corners smoothly and maintain control over the vehicle.
  • Load-Bearing Capacity: Axle shafts are subjected to significant loads, especially in vehicles that carry heavy loads or tow trailers. Robust axle shafts with adequate load-bearing capacity ensure that the vehicle can handle the weight without experiencing excessive deflection or failure. By providing sufficient strength and durability, axle shafts contribute to the safe and efficient transport of passengers and cargo.
  • Efficiency and Fuel Economy: The weight and design of axle shafts can impact the overall efficiency and fuel economy of a vehicle. Lighter axle shafts, such as those made from advanced materials like aluminum or composites, can reduce the unsprung weight of the vehicle. This helps improve suspension response, reduce energy losses, and enhance fuel efficiency. Additionally, optimized designs and reduced friction in axle shafts contribute to more efficient power transmission, maximizing the energy utilization of the drivetrain system.
  • Durability and Reliability: Axle shafts are subjected to various stresses and operating conditions, including high torque, vibrations, and impacts. High-quality axle shafts constructed from durable materials, engineered with appropriate geometries, and manufactured using advanced techniques offer enhanced durability and reliability. Reliable axle shafts minimize the risk of failures or breakdowns, contributing to the overall dependability of the vehicle.

In summary, axle shafts enhance the overall performance and drivability of vehicles through efficient power transmission, improved traction and stability, enhanced handling and cornering, adequate load-bearing capacity, increased efficiency and fuel economy, and enhanced durability and reliability. These components play a critical role in ensuring optimal power delivery, control, and safety, ultimately enhancing the driving experience and satisfaction of vehicle owners.

axle shaft

How do axle shafts contribute to a vehicle’s stability and handling?

Axle shafts play a crucial role in contributing to a vehicle’s stability and handling characteristics. They are integral components of the suspension and drivetrain systems, affecting how the vehicle distributes power, maintains traction, and responds to steering inputs. Here’s a detailed explanation of how axle shafts contribute to a vehicle’s stability and handling:

  • Power Distribution: Axle shafts transmit power from the drivetrain to the wheels, allowing the vehicle to move forward or backward. The distribution of power between the wheels is essential for maintaining stability and preventing wheel slippage. By transferring torque evenly to the wheels, axle shafts help optimize traction and prevent excessive power loss, ensuring that the vehicle stays stable and controlled during acceleration or deceleration.
  • Traction Control: Axle shafts, particularly those equipped with differential mechanisms, help maintain traction by allowing the wheels to rotate at different speeds when necessary. This feature is especially important during turns or when driving on uneven surfaces. The differential compensates for differences in wheel rotation, enabling the vehicle to maintain stability and grip by preventing wheel spin or loss of control.
  • Suspension Geometry: Axle shafts are integrated into the suspension system, connecting the wheels to the differential or transaxle. The positioning and design of axle shafts influence the suspension geometry, including factors like camber, caster, and toe. Proper suspension geometry is crucial for stability, predictable handling, and optimal tire contact with the road surface. Well-engineered axle shafts ensure that the suspension components work harmoniously to maintain stability and enhance handling characteristics.
  • Steering Response: In vehicles with front-wheel drive or all-wheel drive configurations, axle shafts are responsible for transmitting power to the front wheels while also allowing for steering inputs. This design affects the vehicle’s steering response and handling. High-quality axle shafts with minimal play or backlash contribute to precise steering control, allowing the driver to make accurate and predictable maneuvers. Axle shafts that provide a direct and responsive connection between the drivetrain and front wheels enhance the overall handling and stability of the vehicle.
  • Weight Distribution: The weight distribution of a vehicle affects its stability and handling characteristics. Axle shafts, particularly those in rear-wheel drive vehicles, support the weight of the vehicle’s rear end. By properly distributing the weight across the axles, axle shafts help maintain a balanced and stable platform. This balanced weight distribution enhances the vehicle’s overall stability and allows for better handling during cornering, reducing the risk of oversteer or understeer.
  • Impact on Suspension Tuning: Axle shafts can have an impact on the tuning and performance of the suspension system. Upgrading to high-performance axle shafts, such as those made from stronger materials or featuring improved designs, can enhance the overall rigidity and responsiveness of the suspension. This, in turn, improves the vehicle’s stability and handling, allowing for more precise control during aggressive driving or challenging road conditions.

It’s important to note that while axle shafts contribute significantly to a vehicle’s stability and handling, they work in conjunction with other components such as suspension, tires, steering system, and chassis design. The overall performance and characteristics of a vehicle’s stability and handling are the result of a complex interaction between these components.

In summary, axle shafts contribute to a vehicle’s stability and handling by ensuring proper power distribution, maintaining traction control, influencing suspension geometry, providing responsive steering, contributing to balanced weight distribution, and impacting suspension tuning. High-quality axle shafts that are properly engineered and integrated into the vehicle’s systems enhance stability, improve handling characteristics, and allow for a more controlled and enjoyable driving experience.

axle shaft

Are there different axle shaft designs for rear-wheel drive and front-wheel drive vehicles?

Yes, rear-wheel drive (RWD) and front-wheel drive (FWD) vehicles typically employ different axle shaft designs to accommodate their respective drivetrain configurations. The axle shafts in RWD and FWD vehicles differ in their construction, orientation, and connection to the wheels. Here’s a detailed explanation of the axle shaft designs used in RWD and FWD vehicles:

Rear-Wheel Drive (RWD) Vehicles:

In RWD vehicles, the engine’s power is transmitted to the rear wheels through the drivetrain components. The axle shaft design in RWD vehicles is commonly referred to as a solid axle or full-floating axle. Here are the key characteristics of RWD axle shafts:

  • Rigid Shaft: RWD axle shafts are typically solid and rigid, connecting the differential directly to each rear wheel. They are designed to handle high torque loads and provide robustness, making them suitable for heavy-duty applications.
  • Single Connection: Each rear wheel has its own dedicated axle shaft, which connects directly to the wheel hub. The axle shaft transfers power to the wheel, enabling it to rotate.
  • Support and Power Transfer: RWD axle shafts support the weight of the vehicle and transmit torque from the differential to the wheels. They facilitate smooth power delivery and enable the rear wheels to propel the vehicle forward or backward.
  • Less Articulation: Since RWD vehicles typically have a solid rear axle, the axle shafts have limited articulation compared to FWD vehicles. This design simplifies the construction but may result in reduced suspension flexibility and a harsher ride quality.

Front-Wheel Drive (FWD) Vehicles:

In FWD vehicles, the engine’s power is transmitted to the front wheels through the drivetrain components. FWD axle shafts are commonly known as half shafts or CV axles (constant velocity axles). Here are the main characteristics of FWD axle shafts:

  • Compact and Lightweight: FWD axle shafts are typically lighter and more compact than RWD axle shafts. They are designed to accommodate the space limitations in the front-wheel-drive layout.
  • Constant Velocity (CV) Joints: FWD axle shafts incorporate constant velocity (CV) joints, which allow for flexibility and rotation at various angles. CV joints compensate for the changing length and angle of the axle shafts during suspension movement and steering.
  • Transverse Orientation: FWD axle shafts are positioned transversely across the vehicle, connecting the differential or transaxle to the front wheels. This orientation allows for efficient power transfer and space utilization in FWD vehicles.
  • Support and Power Transfer: FWD axle shafts support the weight of the vehicle and transmit torque from the differential or transaxle to the front wheels. They enable the front wheels to rotate and provide the driving force for vehicle movement.
  • Increased Articulation: FWD axle shafts have greater articulation capabilities due to the need to accommodate suspension movement and steering angles. The CV joints allow the axle shafts to flex and rotate, ensuring smooth power delivery even when the wheels are turned or the suspension is compressed.

These axle shaft designs in RWD and FWD vehicles are tailored to the specific requirements and configurations of each drivetrain layout. They optimize power transmission, support the wheels, and ensure efficient operation based on the unique characteristics of rear-wheel drive and front-wheel drive systems.

China Professional Tractor Pto Driveshaft Driveline Factory Hollow Spline Cardan Adapter Universal Joint Yoke Flexible Front Prop Rear CV Axle Propeller Automobile Drive Shaft   manufacturer China Professional Tractor Pto Driveshaft Driveline Factory Hollow Spline Cardan Adapter Universal Joint Yoke Flexible Front Prop Rear CV Axle Propeller Automobile Drive Shaft   manufacturer
editor by CX 2024-03-26

China Good quality Best Selling CZPT Auto Axle Drive Propeller Shaft OE 2044107001 for Mercedes Benz W221 W212 W222 axle car repair

Product Description

Description Axle Drive Propeller Shaft for W221 W212 W222
OEM Number 2044107001
Brand Frey
Application W221 W212 W222
Market Type Aftermarket
Price Term EXW, FOB HangZhou/HangZhou
Payment T/T, Paypal, West Union, L/C, Cash, etc
Quality Produced according to the OE Parts
Certificate TUV, SGS
Packing Frey Brand, Customer Brand, Neutral Packing
Delivery Time  5-15 days if in stock
Export Areas Sounth America, Europe, Amercia, Asia

 Frey, since 2004, is a Supply Chain Management Co, Ltd.For automotive after-market integrating R8D, operation, sales,service,import and export trade of automo-bile parts. Our core products focus on serving the aftermarket brand such as Mer-cedes Benz and BMW And we are a brand supplier with the most complete SkU in automotive aftermar-ket in China.ln China, CZPT has morethan 150 agency outlets, and the sales of prod-ucts have covered more than 110 countries and regions around theworld, basicallyrealizing the sales network all over the world.As a wel-known global auto partsbrand,Frey has a global supply intelligence distribution centers in HangZhoucover-ing a total area of 15000 square meters. in the digital modern industrial system, through the introduction of perfect ware-housing and logistics system and SAPintelligent management system, CZPT prod-ucts are more rigorous and meticulous in the production and operation.warehousingmanagement,accurate distribution and other series of operation processes.

  In the past 17 years, CZPT Brand has always adhered to independent researchand development,with technologyas the driving force and products as the core.Soevery year, more than 800 new products are introduced, with atotal of more than15000 products. The products produced by CZPT Brand have successfully passed the SO 9001quality management systemcertification by TUV South Germany group.

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After-sales Service: 12 Months
Condition: New
Color: Black

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axle shaft

How does proper maintenance extend the lifespan of axle shafts and drivetrains?

Proper maintenance plays a crucial role in extending the lifespan of axle shafts and drivetrains in vehicles. By following recommended maintenance practices, owners can prevent premature wear, identify potential issues early, and ensure optimal performance. Here’s a detailed explanation of how proper maintenance extends the lifespan of axle shafts and drivetrains:

  • Lubrication: Regular lubrication is essential for axle shafts and drivetrain components. Adequate lubrication reduces friction between moving parts, minimizing wear and heat generation. It helps prevent metal-to-metal contact, which can lead to damage and premature failure. Proper lubrication ensures smooth operation and protects against corrosion, promoting the longevity of axle shafts and drivetrain components.
  • Fluid Inspection and Replacement: Regular inspection and replacement of fluids, such as gear oil and transmission fluid, are essential for maintaining the health of axle shafts and drivetrains. Over time, fluids can become contaminated, lose their lubricating properties, or develop excessive wear particles. By regularly inspecting and replacing fluids according to the manufacturer’s recommendations, owners can ensure optimal lubrication and cooling, reducing the risk of component damage and extending the lifespan of axle shafts and drivetrains.
  • Seal and Boot Maintenance: Axle shafts are equipped with seals and boots that protect them from contamination and retain lubricants. Proper maintenance involves inspecting and replacing damaged or worn seals and boots. Cracked or torn boots can allow dirt, moisture, and debris to enter, leading to accelerated wear and potential damage to the axle shafts and other drivetrain components. Regular maintenance of seals and boots helps maintain a protective barrier, preserving the integrity and longevity of the axle shafts and drivetrains.
  • Alignment and Suspension: Proper alignment and suspension settings are crucial for the health of axle shafts and drivetrains. Misalignment or improper suspension geometry can place excessive stress on the axle shafts, leading to premature wear or failure. Regular wheel alignment and suspension inspections, as well as addressing any issues promptly, help distribute the load evenly across the axle shafts, reducing strain and extending their lifespan.
  • Regular Inspections: Conducting regular inspections of the axle shafts and drivetrain components allows owners to identify any signs of wear, damage, or abnormalities. This includes checking for excessive play, unusual noises, leaks, or vibrations. By catching potential issues early, owners can take timely action, such as repairing or replacing worn components, preventing further damage and preserving the overall health and longevity of the axle shafts and drivetrains.
  • Proper Driving Habits: Responsible driving habits can also contribute to the extended lifespan of axle shafts and drivetrains. Avoiding aggressive acceleration, hard braking, and abrupt shifts can reduce stress on these components. Smooth and controlled driving minimizes sudden torque changes and excessive forces, preventing unnecessary wear and extending the life of axle shafts and drivetrains.

By adhering to proper maintenance practices, owners can significantly increase the lifespan of axle shafts and drivetrains in their vehicles. Regular lubrication, fluid inspection and replacement, seal and boot maintenance, alignment and suspension checks, regular inspections, and adopting responsible driving habits all contribute to reducing wear, preventing damage, and maximizing the performance and longevity of axle shafts and drivetrains.

In summary, proper maintenance plays a vital role in extending the lifespan of axle shafts and drivetrains. It ensures adequate lubrication, inspects and replaces fluids, maintains seals and boots, addresses alignment and suspension issues, conducts regular inspections, and promotes responsible driving. By following these practices, owners can enjoy a longer lifespan and optimal performance from their vehicle’s axle shafts and drivetrains.

axle shaft

How do axle shafts contribute to a vehicle’s stability and handling?

Axle shafts play a crucial role in contributing to a vehicle’s stability and handling characteristics. They are integral components of the suspension and drivetrain systems, affecting how the vehicle distributes power, maintains traction, and responds to steering inputs. Here’s a detailed explanation of how axle shafts contribute to a vehicle’s stability and handling:

  • Power Distribution: Axle shafts transmit power from the drivetrain to the wheels, allowing the vehicle to move forward or backward. The distribution of power between the wheels is essential for maintaining stability and preventing wheel slippage. By transferring torque evenly to the wheels, axle shafts help optimize traction and prevent excessive power loss, ensuring that the vehicle stays stable and controlled during acceleration or deceleration.
  • Traction Control: Axle shafts, particularly those equipped with differential mechanisms, help maintain traction by allowing the wheels to rotate at different speeds when necessary. This feature is especially important during turns or when driving on uneven surfaces. The differential compensates for differences in wheel rotation, enabling the vehicle to maintain stability and grip by preventing wheel spin or loss of control.
  • Suspension Geometry: Axle shafts are integrated into the suspension system, connecting the wheels to the differential or transaxle. The positioning and design of axle shafts influence the suspension geometry, including factors like camber, caster, and toe. Proper suspension geometry is crucial for stability, predictable handling, and optimal tire contact with the road surface. Well-engineered axle shafts ensure that the suspension components work harmoniously to maintain stability and enhance handling characteristics.
  • Steering Response: In vehicles with front-wheel drive or all-wheel drive configurations, axle shafts are responsible for transmitting power to the front wheels while also allowing for steering inputs. This design affects the vehicle’s steering response and handling. High-quality axle shafts with minimal play or backlash contribute to precise steering control, allowing the driver to make accurate and predictable maneuvers. Axle shafts that provide a direct and responsive connection between the drivetrain and front wheels enhance the overall handling and stability of the vehicle.
  • Weight Distribution: The weight distribution of a vehicle affects its stability and handling characteristics. Axle shafts, particularly those in rear-wheel drive vehicles, support the weight of the vehicle’s rear end. By properly distributing the weight across the axles, axle shafts help maintain a balanced and stable platform. This balanced weight distribution enhances the vehicle’s overall stability and allows for better handling during cornering, reducing the risk of oversteer or understeer.
  • Impact on Suspension Tuning: Axle shafts can have an impact on the tuning and performance of the suspension system. Upgrading to high-performance axle shafts, such as those made from stronger materials or featuring improved designs, can enhance the overall rigidity and responsiveness of the suspension. This, in turn, improves the vehicle’s stability and handling, allowing for more precise control during aggressive driving or challenging road conditions.

It’s important to note that while axle shafts contribute significantly to a vehicle’s stability and handling, they work in conjunction with other components such as suspension, tires, steering system, and chassis design. The overall performance and characteristics of a vehicle’s stability and handling are the result of a complex interaction between these components.

In summary, axle shafts contribute to a vehicle’s stability and handling by ensuring proper power distribution, maintaining traction control, influencing suspension geometry, providing responsive steering, contributing to balanced weight distribution, and impacting suspension tuning. High-quality axle shafts that are properly engineered and integrated into the vehicle’s systems enhance stability, improve handling characteristics, and allow for a more controlled and enjoyable driving experience.

axle shaft

What are the components of an axle shaft assembly and their functions?

An axle shaft assembly consists of several components that work together to facilitate the transmission of power from the differential to the wheels. Each component plays a specific role in ensuring efficient power transfer and supporting the functionality of the axle shaft assembly. Here are the main components and their functions:

1. Axle Shaft:

The axle shaft itself is the main component of the assembly. It is a long, cylindrical shaft that connects the differential or transaxle to the wheels. The primary function of the axle shaft is to transmit rotational power from the differential to the wheels, enabling them to rotate and propelling the vehicle forward or backward.

2. Differential Side Gears or Output Shafts:

The axle shaft assembly is connected to the differential through side gears or output shafts. These are gear-like components that are part of the differential mechanism. The side gears or output shafts engage with the axle shafts, providing a solid mechanical connection. They allow the rotational force from the differential to be transmitted to the axle shafts, initiating power transfer to the wheels.

3. Constant Velocity (CV) Joints:

In many modern vehicles, especially those with front-wheel drive or independent suspension systems, the axle shaft assembly incorporates constant velocity (CV) joints. CV joints allow for smooth power transfer and accommodate changes in axle angle and length due to suspension movement and steering. They provide flexibility and reduce vibrations during power transmission. CV joints consist of inner and outer joints with ball bearings and protective boots filled with grease to maintain lubrication and prevent contamination.

4. Wheel Hubs:

At the outer ends of the axle shaft assembly, wheel hubs are attached. Wheel hubs serve as the connection points for the wheels. They provide a mounting surface for the wheels and ensure proper alignment and rotation. The axle shafts transmit the rotational power from the differential to the wheel hubs, causing the wheels to rotate. Wheel hubs often incorporate bearings to allow smooth rotation and reduce friction.

5. Bearings:

Bearings are crucial components within the axle shaft assembly. They support the rotating motion of the axle shafts and the wheel hubs. The bearings reduce friction and allow the axle shafts and wheel hubs to rotate freely. They are typically designed to withstand the forces and loads encountered during vehicle operation and contribute to smooth and efficient power transmission.

6. Seals and Retaining Devices:

To prevent the entry of contaminants and retain lubrication, seals are used in the axle shaft assembly. Seals are placed at various points along the assembly to protect the bearings, CV joints, and other critical components from dirt, moisture, and debris. Additionally, retaining devices such as circlips or snap rings are used to secure the axle shafts, CV joints, or bearings within their respective housings, ensuring proper alignment and preventing unintended disassembly.

These are the key components typically found in an axle shaft assembly. The combination of these components allows for effective power transmission, smooth rotation, support for the wheels, and protection of critical parts, ensuring the overall functionality and longevity of the axle shaft assembly.

China Good quality Best Selling CZPT Auto Axle Drive Propeller Shaft OE 2044107001 for Mercedes Benz W221 W212 W222   axle car repairChina Good quality Best Selling CZPT Auto Axle Drive Propeller Shaft OE 2044107001 for Mercedes Benz W221 W212 W222   axle car repair
editor by CX 2024-03-02

China OEM CZPT OEM 2123-2201015-20 21213-2203012-1 Auto Spare Parts Propeller Half Shaft Cardan Rear Axle Reinforced Drive Shaft for Chevrolet Niva Vaz 2123 2121-21214 with high quality

Product Description

What are the symptoms of a damaged half shaft?
The half shaft is the component that transmits power to the wheels. Without the half shaft, the power cannot be transmitted to the wheels. If the car’s half shaft is damaged, it will cause the car to vibrate abnormally when driving, and will also cause abnormal noises when the car is driving. If the drive shaft is damaged, it needs to be replaced immediately.
If there is a problem with the drive shaft when the vehicle is driving at high speed, it may cause the car tires to fall off or the wheel hub to become out of round. The wheel hub out of roundness will cause the car’s dynamic balance to become unbalanced, causing the car’s high-speed steering wheel to shake. In the vehicle’s transmission system, the half shaft plays an important role and is the shaft that connects the drive wheels and the differential. The inner tie rod ends are generally connected to each other through side gears and splines, and the outer tie rod ends are connected to the wheel hub and flange. The structure of the automobile drive wheel is determined by the structural form of the half shaft. According to the different stress conditions of the half shaft, it can be divided into semi-floating half shaft and fully floating half shaft. It can be seen that the automobile half shaft is the most important factor in the daily driving of the car. An important component, the safe driving of the car depends on the performance of the drive shaft. After long-term torsional fatigue and impact, automobile half shafts are prone to bending, breakage, twisting, skewing, and spline tooth wear. The fractures of automobile half shafts usually have the following morphological types: 1.The spiral of the half-shaft shaft is broken; 2. Mixed cracks and fractures appear in the half-shaft shaft; 3.The splines of the half-shaft are broken; 4.The half-shaft is blue Cracks appear on the disc, and may even fall off in severe cases; 5.Other morphological fractures and cracks in the half shaft.

Product description
HDAG oem -20 2-1 auto spare parts propeller half shaft cardan rear axle reinforced drive shaft for chevrolet niva vaz 2123 2121-21214 

 

Item Name          Auto or car CV JOINT,Universal Joint,CV JOINT INNER OUTER, DRIVE SHAFT, DRIVESHAFT,CV AXLE, JOINT SHAFT ASSEMBLY,CV AXLE JOINT SHAFT, HALF SHAFT, WHEEL BEARING HUB, WHEEL HUB BEARING, WHEEL BEARING
OEM/REF NO.              2 2  2 2 2   2 2  -20  21213 -2203012-1  
Car Model For lada UAZ 2206/3151/3303/3741/9 3741 236571  3160 3163 NIVA VAZ samara moskvich 2141 Tavria 1102 GRANTA LARGUS Vesta X-Ray Kalina PRIORA BA3 Granta Kalina Priora OKA VESTA  Gazelle Gazelle Gazel Gazon Kamaz Patriot 
POSITION RH/LH/Right/ Left/ Front/Rear
MOQ 150PCS
Quality/Product parameters OEM standard or Design as sample or drawing
Payment Terms T/T, L/C, Credit card, Cash
Product Guarantee 1 Year or 50,
TOYOTA :
TOYOTA :
TOYOTA : 4342
TOYOTA : 4342
TOYOTA : 4342R20
TOYOTA : 4346R30
TOYOTA : 4346S50
TOYOTA : 4346
TOYOTA : 4347S60
TOYOTA : 4347U90
TOYOTA :
TOYOTA :
TOYOTA : 434708Z033
TOYOTA : 434708Z037
NISSAN : 391J10
NISSAN : 391571JJ10
NISSAN : 39157117JJ10
NISSAN : 3910110JJ10
NISSAN : 391M615
NISSAN : 391Y10
NISSAN : 391M570
NISSAN : 391N215
NISSAN : 391571M311
NISSAN : 391571M915
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NISSAN : 391014M570
NISSAN : 391014M575
NISSAN : 391014M771
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NISSAN : 391016N215
MAZDA : G057155J210
NISSAN : 391J171
NISSAN : 391N275
NISSAN : 391J071
NISSAN : 391J915
NISSAN : 391E478
NISSAN : 391012J215
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NISSAN : 391014N177
NISSAN : 391014N275
NISSAN : 391015J571
NISSAN : 391016J571
NISSAN : 391016J071
NISSAN : 391016J076
NISSAN : 391016J915
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NISSAN : 39101AU415
NISSAN : 39101AU416
NISSAN : 39101AW110
NISSAN : 39101CX116
NISSAN : 39101WF715
NISSAN : 39101WF716
391 391M10
TOYOTA : 4347Z035
TOYOTA : 434708Z039
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VAG :
6Q0498099E, 6Q0498099B, 6Q0498099EX 43403-6, 96564144
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39211-3U  39211-BM726 FD50-25-40XA, FA60-25-40X, FA58-25-50X FA252560XA/FA557160X/FA5822510/FA5822510B/FD54-25-60XA/FD55-25-50XA
1K0498103C 8K0498099X,8K0498099,8K0498099D 17145711  171498UU507
NISSAN : 391V70A
NISSAN : 391013U505
NISSAN : 391014V01C
NISSAN : 391014V51A
NISSAN : 391014V70A
NISSAN : 392113U
96348790
391
VOLVO : 8111304
VOLVO : 86011
VOLVO : 9122833
VOLVO : 9163595
7L 0571 11D,95534995712,95534995710, 7L0498099CX,7L0498099AX 17145711J,171498099A 374403/374403/9201725 39211-7F 8K 0571 15C, 8K0498099B, 8K0498099BX 171498099B,171498099BX 96273760/96549104/96951692 392112F225 MAZDA : G5712510
MAZDA : G571550X
MAZDA : G571560X
MAZDA : G565715
OPEL : 374
VAUXHALL : 571
391
MAZDA : MD1922510
MAZDA : MD1922510A
MAZDA : MD192550X
MAZDA : MD257160XB
44014-SP0-
OPEL : 374048
OPEL : 374067
OPEL : 37408
OPEL : 374118
OPEL : 374148
OPEL : 374195
OPEL : 90125876
OPEL : 90157212
OPEL : 95718734
OPEL : 9317340
OPEL : 93173430
SAAB : 4242319
392114F425  MD20-25-60X
44305SE0J22/44306SE0G12/44305SE0G23/44305SE0G24/44305SE0J20 A6383342334 391KD0A
NISSAN : 391KD0A
NISSAN : 391019Y015
NISSAN : 39101CNY015
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HONDA : 44305S04J60
HONDA : 44305S0A960
HONDA : 44305S0AN60
HONDA : 44305S2H571
HONDA : 44305S2H050
HONDA : 44305S2H950
HONDA : 44305S2H951
HONDA : 44305S2HN50
HONDA : 44305S5AJ50
HONDA : 44305S5AJ60
HONDA : 44305S5AJ61
HONDA : 44305S5AJ62
HONDA : 44305S5C950
HONDA : 44305S5CN50
HONDA : 44305S5CN51
HONDA : 44305S7B950
HONDA : 44305S7C950
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HONDA : 44305SOAN60
HONDA : 44306S0A960
HONDA : 44306S0AN60
HONDA : 44306S2H571
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HONDA : 44306S2H951
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HONDA : 44306S5AJ61
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HONDA : 44306S5C951
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HONDA : 44306S7C950
HONDA : 44306SOA960
HONDA : 44306SOAN60
49591-1F410 44305-SA5-000,44305-688-000,44306-689-601,44306-688-571,44305-688-571 4401720,4401727,8200169277,8200169281,8200169285,8200169288,8200196277,8200178624 39210-Y02G0
 326582
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FG02-25-500E
FG02-25-600D
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44305-SA2-960
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44571-SH3-J01,44306-SB2-984
7701351572,7701351571,7701351484,7701351480,7701351479,7701349938,7701349880,7701349874
 
39100-JX00A
39211-CN000
GP34-25-60XD
44014-SDE-T00,44014SDCA00,44306SDETOOL 3272.06/3273.75 44305-SH3-961, 44306-SH3-571, 44305-SE0-000,44571-SH3-960,44011-SH3-G12,44305-SH3-961 8200264664,39100-0153R,39101-5451R,6001548720,8200690053,820571122 1N00-25-500 KIA : 0K558-25-50X
KIA : 0K558-25-60X
 44305-TL1-E00,44014TA0A00 3273.Y7
3272.S5
44571SL5N01 44571SS571 44571SS0030 44011SS571 44011SS0030 391014946R 39100-AX000
39211-AY125
39101-AX005
39100-AX005
39101-AX000
MAZDA : M 0571 1510
MAZDA : M 0571 1510A
MAZDA : M 0571 1500C
MAZDA : M 0571 1500D
MAZDA : M 0571 1600A
MAZDA : M 0571 1600B
MAZDA : MD0925500A
MAZDA : MD0925600A
44014-S9A-571,44014-SDC-A50,44014-S9A-571, 44014-SCA-E00,44014-SCA-E01 3273.60/3273.62/3273.C7/3274.77/95606802/95646292/96184033 44305-SM4-983, 44571-SM4-A01, 44571-SL5-N01,44571-SV4-951,44011-SS0-930, 77,013,524,157,701,300,000 39210-F4125 MAZDA : G064-25-500
MAZDA : G064-25-600
MAZDA : G564-25-500A
MAZDA : G564-25-600A
MAZDA : G564-25-60X
MAZDA : GR01-25-500
MAZDA : GR01-25-50X
MAZDA : GR01-25-600
MAZDA : GR01-25-60X
MAZDA : GU01-25-500
MAZDA : GU01-25-50XA
MAZDA : GU01-25-50XC
MAZDA : GU01-25-600
MAZDA : GU01-25-60XA
MAZDA : GU01-25-60XD
44305-SAA-E00 9566722380/1495545080/1496138080/9567582280 44571-S07-000,44571SR3J01,44571SR3J02 299341X2 39100-1KA5B GG06-25-50XC
HONDA : 44014-SDC-A00
HONDA : 44014-SNG-000
HONDA : 44305-SDC-A00
HONDA : 44305-SEA-000
HONDA : 44305-SNG-571
HONDA : 44306-SDC-A01
HONDA : 44306-SDE-T00
HONDA : 44306-SEA-000
HONDA : 44306-SNG-571
1495537080;1495541080;9566722180,9566722180 44571SR3J03/44571SR3J53/44571ST7N00/44011S07000/44305SF1G10/44011ST3E00/44571-S07-950/44571-ST3-E50 9109186,775712978,775712980,775712998,775712999

 

NISSAN : 39100JA571
NISSAN : 39100JD24B
NISSAN : 39100JD52B
NISSAN : 39101JD24B
NISSAN : 39101JD52B
NISSAN : 39211JA00A
NISSAN : 39211JD22B
NISSAN : C9211JA00A
NISSAN : C9211JD22B
NISSAN : C92AAJA00A
NISSAN : C92AAJD22B
NISSAN : C9B11JA00A
NISSAN : C9BAAJA00A
MAZDA : CTA125500
MAZDA : FA8571500A
MAZDA : FA8571600B
MAZDA : FA8125600B
MAZDA : FA8225500A
MAZDA : FD8571500B
MAZDA : FD8571600A
MAZDA : FP0125500C
 44014-SDC-A00,44014-SDC-A00,44014-SDE-T00,44014-SNG-000,44306-SNG-571 3272-EX
3272-HY
3272-KW
3273-HQ
3273-KJ
43460-49125/43460-49165/43460-49315/43470-80013/43470-39545 1991909 NISSAN : 39100-ED100
NISSAN : 39100-ED105
NISSAN : 39100-ED305
NISSAN : 39100-ED805
NISSAN : 39101-ED105
NISSAN : 39101-ED305
NISSAN : 39101-ED805
NISSAN : 39211-ED100
NISSAN : C9211-EL10A
KIA : 0K2N122520
KIA : KK38825600
44014-S6D-E01 3272.3C 43410-12500,43410-57180 TDJ10571 39100-AX000/39100-ED100 HYUNDAI : 49500-25301
HYUNDAI : 49500-25302
HYUNDAI : 49500-25310
HYUNDAI : 49500-25311
HYUNDAI : 49500-25312
KIA : 49500-25301
KIA : 49500-25302
KIA : 49500-25310
KIA : 49500-25311
KIA : 49500-25312
44014-TA0-A00,44305-TA0-J00,44305-TA2-J00,44305-TL1-E00,44305-TL3-000,44306-TA0-J00 1481451080/3272.9C/3273.3Q 43460-19795 LAND ROVER : RTC6811
LAND ROVER : STC3046
4571-M7226
40011-M5626
39100-M7270
39101-M7270
39113-M7275
39112-M7225
4950624A00/MB297343/MB297873/MB526582/MB176160/MB176161/MB176865
44014-S9A-571,44014-SDE-T51, 44014-SMT-G01,44306-SEA-N00,44306S9AN00 9619947580 43410-57120/43460-19865/43420-12430 LAND ROVER : STC3051
LAND ROVER : TDJ00571
39101-1HS0A HYUNDAI : 49500-25200
HYUNDAI : 49500-25400
KIA : 49500-25200
KIA : 49500-25400
44306-SAA-000,44306-SFA-000,44306-SFB-000,44305-SAA-000 9619947580/9619947588/9619947688/9619947680 43410-12610, 43410-57130, 43410-12520,43410-0W270 LAND ROVER : LR060382
LAND ROVER : TDB500110
LAND ROVER : TDJ500030
39100CA000
39101-CA100
39211-CA100
39100-CA100
49508-22A00 49508-22E00
44014SD5A51 9619947580/9619947588/9619947688/9619947680 43430-0K571/43430-0K030/43460-80033 HONDA : 44305S74E00
HONDA : 44305S74E01
HONDA : 44305S74E51
ROVER : GCV1123
ROVER : TFB000070
39100-AX000
39211-AY125
39101-AX005
39100-AX005
39101-AX000
MB176872, MB297376, MB297377,MB526456,49500-2D002
44014-S91-571,44014S9A571,44305S9AN00,44305SCAG00 CITROEN : 3272QF
CITROEN : 3272TH
CITROEN : 3272WX
CITROEN : 3273QQ
CITROEN : 3273TT
CITROEN : 3273XR
DS : 3272QF
DS : 3272TH
DS : 3273QQ
DS : 3273TT
PEUGEOT : 3272QF
PEUGEOT : 3272TH
PEUGEOT : 3272WX
PEUGEOT : 3273QQ
PEUGEOT : 3273TT
PEUGEOT : 3273XR
43420-5710/43470-5711/43430-5711 GCV1194,TDJ100590 39211-CG000
39211-CG571
MB297438,MB297678,MB526831,MB297696,MB526473

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After-sales Service: Three Years
Condition: New
Color: OEM Standard
Certification: CE, ISO, ISO/Ts16949
Type: C.V. Joint
Application Brand: Nissan, Iveco, Toyota, Ford, Lada Mitsubishi FIAT Opel Peugeot Renault Citroen
Customization:
Available

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axle shaft

Are there potential challenges or limitations to using specific axle shafts?

Using specific axle shafts in vehicles can come with challenges or limitations depending on various factors such as the design of the vehicle, the intended use, and the specific characteristics of the axle shafts. Here’s a detailed explanation of potential challenges or limitations associated with specific axle shafts:

  • Compatibility: One challenge is ensuring compatibility between the axle shafts and the vehicle’s drivetrain configuration, suspension system, and overall design. Axle shafts must be designed to fit the specific vehicle model and its corresponding drivetrain layout. Using incompatible axle shafts can lead to improper fitment, compromised performance, or even mechanical failures.
  • Strength and Durability: Depending on the vehicle’s weight, power output, and intended use, specific axle shafts may have limitations in terms of strength and durability. Axle shafts subjected to heavy loads, aggressive driving, or off-road conditions may require higher-strength materials or specialized designs to withstand the forces and torque applied to them. Using axle shafts that are not adequately designed for the vehicle’s demands can result in premature wear, bending, or breakage.
  • Performance Trade-offs: Different types of axle shafts offer different performance trade-offs. For example, solid axle shafts may provide durability and simplicity but can result in a harsher ride quality and limited independent wheel movement. On the other hand, CV (constant velocity) axle shafts offer smoother power delivery and greater wheel articulation but may have limitations in terms of torque capacity and durability under extreme conditions. It’s important to consider the specific requirements and priorities of the vehicle’s performance and select axle shafts accordingly.
  • Cost and Availability: Certain axle shafts, especially those designed for specialized applications or high-performance vehicles, may be more expensive or harder to source compared to standard axle shafts. Limited availability can pose challenges when it comes to replacement or upgrade options. Additionally, aftermarket axle shafts might not always meet the same quality standards as original equipment manufacturer (OEM) parts, which could impact their performance and reliability.
  • Modifications and Customization: Modifying or customizing axle shafts can introduce additional challenges. Altering axle shafts to accommodate different drivetrain configurations, wheel sizes, or suspension setups may require specialized knowledge, engineering expertise, and fabrication skills. Improper modifications can negatively affect the vehicle’s stability, handling, and safety.
  • Serviceability: Some specific axle shafts might have limited serviceability or require specialized tools or expertise for maintenance, repair, or replacement. This can impact the availability and cost of servicing the vehicle. It’s important to consider the long-term serviceability and support for specific axle shafts when selecting them for a vehicle.

It’s crucial to consult with knowledgeable professionals, such as automotive engineers or experienced mechanics, to ensure the appropriate selection and installation of axle shafts for a specific vehicle. They can provide valuable insights and guidance based on the vehicle’s requirements, intended use, and potential limitations associated with specific axle shafts.

In summary, potential challenges or limitations of using specific axle shafts include compatibility issues, limitations in strength and durability, performance trade-offs, cost and availability considerations, challenges related to modifications or customization, and serviceability concerns. A careful assessment of these factors is essential to ensure the optimal performance, safety, and reliability of the vehicle.

axle shaft

What are the advantages of using high-performance or heavy-duty axle shafts?

Using high-performance or heavy-duty axle shafts can offer several advantages in terms of strength, durability, and performance. These specialized axle shafts are designed to handle increased torque loads, provide improved power delivery, and withstand the demands of challenging applications. Here’s a detailed explanation of the advantages of using high-performance or heavy-duty axle shafts:

  • Increased Strength: High-performance or heavy-duty axle shafts are typically constructed from stronger materials, such as chromoly steel or alloy steel. These materials offer higher tensile and yield strength compared to standard axle shafts. The increased strength allows the shafts to handle higher torque loads without deformation or failure, providing enhanced reliability and durability.
  • Improved Power Delivery: High-performance axle shafts are designed to provide more efficient power delivery from the drivetrain to the wheels. The enhanced strength and rigidity of these shafts minimize power loss due to torsional flex, ensuring that a greater percentage of the torque generated by the engine reaches the wheels. This results in improved acceleration, better throttle response, and enhanced overall performance.
  • Enhanced Torsional Rigidity: Heavy-duty axle shafts are often engineered with increased torsional rigidity. This means they have reduced torsional flex or twisting under load. The improved torsional rigidity helps maintain consistent power transfer to the wheels, especially during high-torque situations or aggressive driving maneuvers. It contributes to better traction and stability, particularly in performance-oriented or off-road applications.
  • Increased Durability: High-performance or heavy-duty axle shafts are designed to withstand the demands of challenging applications. They are engineered to handle increased loads, higher rotational speeds, and more extreme operating conditions. By providing greater durability, these axle shafts can withstand off-road obstacles, heavy payloads, or aggressive driving without premature wear or failure.
  • Improved Off-Road Capability: High-performance or heavy-duty axle shafts are particularly beneficial in off-road applications. They can handle the additional stresses and forces encountered during off-road driving, such as uneven terrain, rock crawling, or high-speed desert runs. With increased strength and durability, these axle shafts reduce the risk of breakage, allowing off-road enthusiasts to explore challenging terrains with more confidence.
  • Support for Vehicle Modifications: High-performance or heavy-duty axle shafts are often used in vehicles with significant modifications, such as increased engine power, larger tires, or suspension upgrades. These axle shafts can accommodate the additional torque loads and provide the necessary strength and reliability to support the modified drivetrain and suspension components.

It’s important to note that the advantages of high-performance or heavy-duty axle shafts are most noticeable in applications where the vehicle is subjected to increased torque loads, extreme conditions, or performance-oriented driving. In everyday driving scenarios with standard vehicles, the benefits may be less pronounced.

When considering high-performance or heavy-duty axle shafts, it’s crucial to ensure compatibility with other drivetrain components, such as the differential, wheel hubs, and braking system. Additionally, professional installation by experienced technicians is recommended to ensure proper fitment and compatibility.

Overall, high-performance or heavy-duty axle shafts offer increased strength, improved power delivery, enhanced durability, and better performance characteristics, making them a valuable upgrade for specific applications where increased performance, reliability, and off-road capability are desired.

axle shaft

What are the components of an axle shaft assembly and their functions?

An axle shaft assembly consists of several components that work together to facilitate the transmission of power from the differential to the wheels. Each component plays a specific role in ensuring efficient power transfer and supporting the functionality of the axle shaft assembly. Here are the main components and their functions:

1. Axle Shaft:

The axle shaft itself is the main component of the assembly. It is a long, cylindrical shaft that connects the differential or transaxle to the wheels. The primary function of the axle shaft is to transmit rotational power from the differential to the wheels, enabling them to rotate and propelling the vehicle forward or backward.

2. Differential Side Gears or Output Shafts:

The axle shaft assembly is connected to the differential through side gears or output shafts. These are gear-like components that are part of the differential mechanism. The side gears or output shafts engage with the axle shafts, providing a solid mechanical connection. They allow the rotational force from the differential to be transmitted to the axle shafts, initiating power transfer to the wheels.

3. Constant Velocity (CV) Joints:

In many modern vehicles, especially those with front-wheel drive or independent suspension systems, the axle shaft assembly incorporates constant velocity (CV) joints. CV joints allow for smooth power transfer and accommodate changes in axle angle and length due to suspension movement and steering. They provide flexibility and reduce vibrations during power transmission. CV joints consist of inner and outer joints with ball bearings and protective boots filled with grease to maintain lubrication and prevent contamination.

4. Wheel Hubs:

At the outer ends of the axle shaft assembly, wheel hubs are attached. Wheel hubs serve as the connection points for the wheels. They provide a mounting surface for the wheels and ensure proper alignment and rotation. The axle shafts transmit the rotational power from the differential to the wheel hubs, causing the wheels to rotate. Wheel hubs often incorporate bearings to allow smooth rotation and reduce friction.

5. Bearings:

Bearings are crucial components within the axle shaft assembly. They support the rotating motion of the axle shafts and the wheel hubs. The bearings reduce friction and allow the axle shafts and wheel hubs to rotate freely. They are typically designed to withstand the forces and loads encountered during vehicle operation and contribute to smooth and efficient power transmission.

6. Seals and Retaining Devices:

To prevent the entry of contaminants and retain lubrication, seals are used in the axle shaft assembly. Seals are placed at various points along the assembly to protect the bearings, CV joints, and other critical components from dirt, moisture, and debris. Additionally, retaining devices such as circlips or snap rings are used to secure the axle shafts, CV joints, or bearings within their respective housings, ensuring proper alignment and preventing unintended disassembly.

These are the key components typically found in an axle shaft assembly. The combination of these components allows for effective power transmission, smooth rotation, support for the wheels, and protection of critical parts, ensuring the overall functionality and longevity of the axle shaft assembly.

China OEM CZPT OEM 2123-2201015-20 21213-2203012-1 Auto Spare Parts Propeller Half Shaft Cardan Rear Axle Reinforced Drive Shaft for Chevrolet Niva Vaz 2123 2121-21214   with high quality China OEM CZPT OEM 2123-2201015-20 21213-2203012-1 Auto Spare Parts Propeller Half Shaft Cardan Rear Axle Reinforced Drive Shaft for Chevrolet Niva Vaz 2123 2121-21214   with high quality
editor by CX 2024-01-04

China manufacturer Transmission Spline Propeller Worm Gear Shaft for Rice Transplanter drive shaft equipment

Product Description

Product Description

Product Parameters

Item Spur Gear Axle Shaft
Material 4140,4340,40Cr,42Crmo,42Crmo4,20Cr,20CrMnti, 20Crmo,35Crmo
OEM NO Customize
Certification ISO/TS16949
Test Requirement Magnetic Powder Test, Hardness Test, Dimension Test
Color Paint , Natural Finish ,Machining All Around
Material Aluminum: 5000series(5052…)/6000series(6061…)/7000series(7075…)
Steel: Carbon Steel,Middle Steel,Steel Alloy,etc.
Stainess Steel: 303/304/316,etc.
Copper/Brass/Bronze/Red Copper,etc.
Plastic:ABS,PP,PC,Nylon,Delrin(POM),Bakelite,etc.
Size According to Customer’s drawing or samples
Process CNC machining,Turning,Milling,Stamping,Grinding,Welding,Wire Injection,Cutting,etc.
Tolerance ≥+/-0.03mm
Surface Treatment (Sandblast)&(Hard)&(Color)Anodizing,(Chrome,Nickel,Zinc…)Plating,Painting,Powder Coating,Polishing,Blackened,Hardened,Lasering,Engraving,etc.
File Formats ProE,SolidWorks,UG,CAD,PDF(IGS,X-T,STP,STL)
Sample Available
Packing Spline protect cover ,Wood box ,Waterproof membrane; Or per customers’ requirements.

 

Our Advantages

Why Choose US ???

1. Equipment :

Our company boasts all necessary production equipment,
including Hydraulic press machines, Japanese CNC lathe (TAKISAWA), Korean gear hobbing machine (I SNT), gear shaping machine, machining center, CNC grinder, heat treatment line etc.

2. Processing precision:

We are a professional gear & gear shafts manufacturer. Our gears are around 6-7 grade in mass production.

3. Company:

We have 90 employees, including 10 technical staffs. Covering an area of 20000 square meters.

4. Certification :

Oue company has passed ISO 14001 and TS16949

5.Sample service :

We provide free sample for confirmation and customer bears the freight charges

6.OEM service :

Having our own factory and professional technicians,we welcome OEM orders as well.We can design and produce the specific product you need according to your detail information

 

Cooperation Partner

Company Profile

Our Featured Products

Material: Alloy Steel
Load: Drive Shaft
Axis Shape: Straight Shaft
Appearance Shape: Round
Rotation: Cw
Yield: 5, 000PCS / Month
Samples:
US$ 0/Piece
1 Piece(Min.Order)

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Request Sample

Customization:
Available

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Customized Request

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How to tell if your driveshaft needs replacing

What is the cause of the unbalanced drive shaft? Unstable U-joint? Your car may make clicking noises while driving. If you can hear it from both sides, it might be time to hand it over to the mechanic. If you’re not sure, read on to learn more. Fortunately, there are many ways to tell if your driveshaft needs replacing.

unbalanced

An unbalanced driveshaft can be the source of strange noises and vibrations in your vehicle. To fix this problem, you should contact a professional. You can try a number of things to fix it, including welding and adjusting the weight. The following are the most common methods. In addition to the methods above, you can use standardized weights to balance the driveshaft. These standardized weights are attached to the shaft by welders.
An unbalanced drive shaft typically produces lateral vibrations per revolution. This type of vibration is usually caused by a damaged shaft, missing counterweights, or a foreign object stuck on the drive shaft. On the other hand, torsional vibrations occur twice per revolution, and they are caused by shaft phase shifts. Finally, critical speed vibration occurs when the RPM of the drive shaft exceeds its rated capacity. If you suspect a driveshaft problem, check the following:
Manually adjusting the imbalance of a drive shaft is not the easiest task. To avoid the difficulty of manual balancing, you can choose to use standardized weights. These weights are fixed on the outer circumference of the drive shaft. The operator can manually position the weight on the shaft with special tools, or use a robot. However, manual balancers have many disadvantages.

unstable

When the angular velocity of the output shaft is not constant, it is unstable. The angular velocity of the output shaft is 0.004 at ph = 29.5 and 1.9 at t = 1.9. The angular velocity of the intermediate shaft is not a problem. But when it’s unstable, the torque applied to it is too much for the machine. It might be a good idea to check the tension on the shaft.
An unstable drive shaft can cause a lot of noise and mechanical vibration. It can lead to premature shaft fatigue failure. CZPT studies the effect of shaft vibration on the rotor bearing system. They investigated the effect of flex coupling misalignment on the vibration of the rotor bearing system. They assume that the vibrational response has two components: x and y. However, this approach has limited application in many situations.
Experimental results show that the presence of cracks in the output shaft may mask the unbalanced excitation characteristics. For example, the presence of superharmonic peaks on the spectrum is characteristic of cracks. The presence of cracks in the output shaft masks unbalanced excitation characteristics that cannot be detected in the transient response of the input shaft. Figure 8 shows that the frequency of the rotor increases at critical speed and decreases as the shaft passes the natural frequency.

Unreliable

If you’re having trouble driving your car, chances are you’ve run into an unreliable driveshaft. This type of drivetrain can cause the wheels to stick or not turn at all, and also limit the overall control of the car. Whatever the reason, these issues should be resolved as soon as possible. Here are some symptoms to look for when diagnosing a driveshaft fault. Let’s take a closer look.
The first symptom you may notice is an unreliable drive shaft. You may feel vibrations, or hear noises under the vehicle. Depending on the cause, it could be a broken joint or a broken shaft. The good news is that driveshaft repairs are generally relatively inexpensive and take less time than a complete drivetrain replacement. If you’re not sure what to do, CZPT has a guide to replacing the U-connector.
One of the most common signs of an unreliable driveshaft is clanging and vibration. These sounds can be caused by worn bushings, loose U-joints, or damaged center bearings. This can cause severe vibration and noise. You can also feel these vibrations through the steering wheel or the floor. An unreliable driveshaft is a symptom of a bigger problem.
air-compressor

Unreliable U-joints

A car with an unreliable U-joint on the drive shaft can be dangerous. A bad u-joint can prevent the vehicle from driving properly and may even cause you trouble. Unreliable u-joints are cheap to replace and you should try getting parts from quality manufacturers. Unreliable U-joints can cause the car to vibrate in the chassis or gear lever. This is a sure sign that your car has been neglected in maintenance.
Replacing a U-joint is not a complicated task, but it requires special tools and a lot of elbow grease. If you don’t have the right tools, or you’re unfamiliar with mechanical terminology, it’s best to seek the help of a mechanic. A professional mechanic will be able to accurately assess the problem and propose an appropriate solution. But if you don’t feel confident enough, you can replace your own U-connector by following a few simple steps.
To ensure the vehicle’s driveshaft is not damaged, check the U-joint for wear and lubrication. If the U-joint is worn, the metal parts are likely to rub against each other, causing wear. The sooner a problem is diagnosed, the faster it can be resolved. Also, the longer you wait, the more you lose on repairs.

damaged drive shaft

The driveshaft is the part of the vehicle that connects the wheels. If the driveshaft is damaged, the wheels may stop turning and the vehicle may slow down or stop moving completely. It bears the weight of the car itself as well as the load on the road. So even a slight bend or break in the drive shaft can have dire consequences. Even a piece of loose metal can become a lethal missile if dropped from a vehicle.
If you hear a screeching noise or growl from your vehicle when shifting gears, your driveshaft may be damaged. When this happens, damage to the u-joint and excessive slack in the drive shaft can result. These conditions can further damage the drivetrain, including the front half. You should replace the driveshaft as soon as you notice any symptoms. After replacing the driveshaft, you can start looking for signs of wear.
A knocking sound is a sign of damage to the drive shaft. If you hear this sound while driving, it may be due to worn couplings, damaged propshaft bearings, or damaged U-joints. In some cases, the knocking noise can even be caused by a damaged U-joint. When this happens, you may need to replace the entire driveshaft, requiring a new one.
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Maintenance fees

The cost of repairing a driveshaft varies widely, depending on the type and cause of the problem. A new driveshaft costs between $300 and $1,300, including labor. Repairing a damaged driveshaft can cost anywhere from $200 to $300, depending on the time required and the type of parts required. Symptoms of a damaged driveshaft include unresponsiveness, vibration, chassis noise and a stationary car.
The first thing to consider when estimating the cost of repairing a driveshaft is the type of vehicle you have. Some vehicles have more than one, and the parts used to make them may not be compatible with other cars. Even if the same car has two driveshafts, the damaged ones will cost more. Fortunately, many auto repair shops offer free quotes to repair damaged driveshafts, but be aware that such work can be complicated and expensive.

China manufacturer Transmission Spline Propeller Worm Gear Shaft for Rice Transplanter   drive shaft equipment	China manufacturer Transmission Spline Propeller Worm Gear Shaft for Rice Transplanter   drive shaft equipment
editor by CX 2023-05-30

China manufacturer 5019616AA for Jeep Grand Cherokee 02-03 Propeller Shaft Factory Manufacturer Prop Shaft drive shaft axle

Product Description

As a professional manufacturer for propeller shaft, we have +8AA 938-139 530 0571 1AB Application for JEEP Grand Cherokee 02-03 Material SS430/45# steel  Balancing Standrad G16, 3200rpm Warranty One Year

For some items, we have stock, small order (+3000USD) is welcome.

 

The following items are some of propeller shafts, If you need more information, pls contact us for ASAP.
 

for JEEP PROPELLER SHAFT

OEM

Application

OEM

Application
65-9312 for JEEP Cherokee 01 52853651AF for JEEP Grand Cherokee 11-12
52123612AD for JEEP Cherokee 14-18 5257197AC for JEEP Grand Cherokee 4.0L 99-01
65-9820 for JEEP Cherokee 84-86 5257198AD for JEEP Grand Cherokee 4.7L 99-02
530 0571 2AC for JEEP Cherokee 87-01 65-9773 for JEEP Grand cherokee 93-95
65-9738 for JEEP Cherokee 88 65-9771 for JEEP Grand cherokee 95
530 0571 3AC for JEEP Cherokee 89-00 65-9769 for JEEP Grand Cherokee 96
65-9669 for JEEP Cherokee 90-94 65-9762 for JEEP Grand cherokee 96-97
65-9764 for JEEP Cherokee 90-98 65-9761 for JEEP Grand cherokee 96-97
65-9776 for JEEP Cherokee 95-98 65-9779 for JEEP Grand cherokee 96-98
5215716AC for JEEP Commander 06-09 5215713AA for JEEP Grand Cherokee 99-03
52853006AB for JEEP Commander 06-10 52111597AA for JEEP Liberty 02-04
52853431AA for JEEP Commander 07-10 52111596AA for JEEP Liberty 02-07
21-001D for JEEP Commander 07-10 946-386 for JEEP Liberty 04-07
21-001D for JEEP Commander 07-10 52853442AE for JEEP Liberty 08-12
65-3002 for JEEP Compass 08-16 65-9751 for JEEP Wagoneer 71-79
65-9781 for JEEP Grand cherokee 02-03 52853321AC for JEEP CZPT 07-11
52105884AA for JEEP Grand cherokee 02-04 52853329AC for JEEP CZPT 07-11
5215718AE for JEEP Grand Cherokee 05-06 52853330AC for JEEP CZPT 07-11
5215710AF for JEEP Grand cherokee 05-07 52853319AC for JEEP CZPT 07-18
5215718AE for JEEP Grand Cherokee 05-10 52123557AA for JEEP CZPT 12-14
52853432AA for JEEP Grand Cherokee 07-10 52123551AA for JEEP CZPT 12-17
52123514AD for JEEP Grand Cherokee 11 52123555AA for JEEP CZPT 12-18
52123627A for JEEP Grand Cherokee 11 CVJ014BK for JEEP CZPT 12-18
936-085 for JEEP CZPT 97-06 530571 for JEEP CZPT 87-93
65-9315 for JEEP CZPT 98-02 52098220 for JEEP CZPT 94-95
65-9316 for JEEP CZPT 98-02 65-9765 for JEEP CZPT 97

 

After-sales Service: 1 Year
Condition: New
Color: Black
Certification: ISO, IATF
Type: Propeller Shaft/Drive Shaft
Application Brand: Jeep
Samples:
US$ 300/Piece
1 Piece(Min.Order)

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Request Sample

Customization:
Available

|

Customized Request

air-compressor

Different parts of the drive shaft

The driveshaft is the flexible rod that transmits torque between the transmission and the differential. The term drive shaft may also refer to a cardan shaft, a transmission shaft or a propeller shaft. Parts of the drive shaft are varied and include:
The driveshaft is a flexible rod that transmits torque from the transmission to the differential

When the driveshaft in your car starts to fail, you should seek professional help as soon as possible to fix the problem. A damaged driveshaft can often be heard. This noise sounds like “tak tak” and is usually more pronounced during sharp turns. However, if you can’t hear the noise while driving, you can check the condition of the car yourself.
The drive shaft is an important part of the automobile transmission system. It transfers torque from the transmission to the differential, which then transfers it to the wheels. The system is complex, but still critical to the proper functioning of the car. It is the flexible rod that connects all other parts of the drivetrain. The driveshaft is the most important part of the drivetrain, and understanding its function will make it easier for you to properly maintain your car.
Driveshafts are used in different vehicles, including front-wheel drive, four-wheel drive, and front-engine rear-wheel drive. Drive shafts are also used in motorcycles, locomotives and ships. Common front-engine, rear-wheel drive vehicle configurations are shown below. The type of tube used depends on the size, speed and strength of the drive shaft.
The output shaft is also supported by the output link, which has two identical supports. The upper part of the drive module supports a large tapered roller bearing, while the opposite flange end is supported by a parallel roller bearing. This ensures that the torque transfer between the differentials is efficient. If you want to learn more about car differentials, read this article.

It is also known as cardan shaft, propeller shaft or drive shaft

A propshaft or propshaft is a mechanical component that transmits rotation or torque from an engine or transmission to the front or rear wheels of a vehicle. Because the axes are not directly connected to each other, it must allow relative motion. Because of its role in propelling the vehicle, it is important to understand the components of the driveshaft. Here are some common types.
Isokinetic Joint: This type of joint guarantees that the output speed is the same as the input speed. To achieve this, it must be mounted back-to-back on a plane that bisects the drive angle. Then mount the two gimbal joints back-to-back and adjust their relative positions so that the velocity changes at one joint are offset by the other joint.
Driveshaft: The driveshaft is the transverse shaft that transmits power to the front wheels. Driveshaft: The driveshaft connects the rear differential to the transmission. The shaft is part of a drive shaft assembly that includes a drive shaft, a slip joint, and a universal joint. This shaft provides rotational torque to the drive shaft.
Dual Cardan Joints: This type of driveshaft uses two cardan joints mounted back-to-back. The center yoke replaces the intermediate shaft. For the duplex universal joint to work properly, the angle between the input shaft and the output shaft must be equal. Once aligned, the two axes will operate as CV joints. An improved version of the dual gimbal is the Thompson coupling, which offers slightly more efficiency at the cost of added complexity.
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It transmits torque at different angles between driveline components

A vehicle’s driveline consists of various components that transmit power from the engine to the wheels. This includes axles, propshafts, CV joints and differentials. Together, these components transmit torque at different angles between driveline components. A car’s powertrain can only function properly if all its components work in harmony. Without these components, power from the engine would stop at the transmission, which is not the case with a car.
The CV driveshaft design provides smoother operation at higher operating angles and extends differential and transfer case life. The assembly’s central pivot point intersects the joint angle and transmits smooth rotational power and surface speed through the drivetrain. In some cases, the C.V. “U” connector. Drive shafts are not the best choice because the joint angles of the “U” joints are often substantially unequal and can cause torsional vibration.
Driveshafts also have different names, including driveshafts. A car’s driveshaft transfers torque from the transmission to the differential, which is then distributed to other driveline components. A power take-off (PTO) shaft is similar to a prop shaft. They transmit mechanical power to connected components. They are critical to the performance of any car. If any of these components are damaged, the entire drivetrain will not function properly.
A car’s powertrain can be complex and difficult to maintain. Adding vibration to the drivetrain can cause premature wear and shorten overall life. This driveshaft tip focuses on driveshaft assembly, operation, and maintenance, and how to troubleshoot any problems that may arise. Adding proper solutions to pain points can extend the life of the driveshaft. If you’re in the market for a new or used car, be sure to read this article.

it consists of several parts

“It consists of several parts” is one of seven small prints. This word consists of 10 letters and is one of the hardest words to say. However, it can be explained simply by comparing it to a cow’s kidney. The cocoa bean has several parts, and the inside of the cocoa bean before bursting has distinct lines. This article will discuss the different parts of the cocoa bean and provide a fun way to learn more about the word.
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Replacement is expensive

Replacing a car’s driveshaft can be an expensive affair, and it’s not the only part that needs servicing. A damaged drive shaft can also cause other problems. This is why getting estimates from different repair shops is essential. Often, a simple repair is cheaper than replacing the entire unit. Listed below are some tips for saving money when replacing a driveshaft. Listed below are some of the costs associated with repairs:
First, learn how to determine if your vehicle needs a driveshaft replacement. Damaged driveshaft components can cause intermittent or lack of power. Additionally, improperly installed or assembled driveshaft components can cause problems with the daily operation of the car. Whenever you suspect that your car needs a driveshaft repair, seek professional advice. A professional mechanic will have the knowledge and experience needed to properly solve the problem.
Second, know which parts need servicing. Check the u-joint bushing. They should be free of crumbs and not cracked. Also, check the center support bearing. If this part is damaged, the entire drive shaft needs to be replaced. Finally, know which parts to replace. The maintenance cost of the drive shaft is significantly lower than the maintenance cost. Finally, determine if the repaired driveshaft is suitable for your vehicle.
If you suspect your driveshaft needs service, make an appointment with a repair shop as soon as possible. If you are experiencing vibration and rough riding, driveshaft repairs may be the best way to prevent costly repairs in the future. Also, if your car is experiencing unusual noise and vibration, a driveshaft repair may be a quick and easy solution. If you don’t know how to diagnose a problem with your car, you can take it to a mechanic for an appointment and a quote.

China manufacturer 5019616AA for Jeep Grand Cherokee 02-03 Propeller Shaft Factory Manufacturer Prop Shaft   drive shaft axle	China manufacturer 5019616AA for Jeep Grand Cherokee 02-03 Propeller Shaft Factory Manufacturer Prop Shaft   drive shaft axle
editor by CX 2023-05-25