China high quality OEM ODM Cold Forged and CNC Turned Shaft for Automotive Front Axle axle carrier

Product Description

Product Description

Die casting, refer to high pressure die casting, is a kind of precision casting method that uses high pressure forces the melted metal into a die to get the complex shape of parts people need.
2 key characters of die casting which are high speed and high pressure. Our experienced die casting engineers take control of the temperature, force, speed and timing to get the ideal parts that satisfy the customers’ needs.
Below is our general developing process for a new project.

Machining
Our machining process includes CNC machining, turning(lathe) machining, milling, grinding, drilling and tapping.
CNC machining center:  brandHass, 3-axis, 4-axis, 5-axis, machining size up to 1016x508x635 mm.
Turning machining:  brandTsugamiandDoosan, machining size up to diameter 320x535mm.
Machining accuracy:  0.01mm, roughness up to Ra0.4.
Machining material can be:  steel, brass, Aluminum and plastic.

Assembly
a) ODM parts, design involved and DFM provided
b) Material: ABS with UV property
c) Components quantity is as many as 100+
d) Process included: injection molding, stamping, PCB, rubber sealing parts, Aluminum die casting, motor and so on.
e) Package design and retail package provided
f) low tooling cost input

Stamping
a) cut/punching/blanking
b) bending
c) deep drawing
d) Laser cut/Water jet cutting/Plasma cutting
e) NC punch
f) NC bending

Injection Moulding
The injection molding process requires an injection molding machine, plastic particles, and a mold. The plastic is melted in the injection molding machine and then injected into the mold, where it cools and solidifies into the final shape. See below picture for greater details.

Extrusion
Aluminum extrusion process is to put the Aluminum blank bar into the mold cavity with the desired structure, under a certain pressure and speed, forcing the blank get to flow, extrusion from the specific die hole in the cavity, so as to obtain the required section shape and size, and has a certain mechanical properties by the extrusion process aforementioned.

Forging
a) Aluminum forged and full CNC machined valve for automation equipment
b) Material: 6061-T6
c) By hot forging
d) Forging streamline analysis and streamline lab test report provided,
e) Eddy current testing and ultrasonic testing applied
f) Full CNC machining

Surface Finish
The powder coating process is to spray on the surface of the parts with an electrostatic spray machine. Under the work of static
electricity, the powder will be uniformly adsorbed on the surface of the workpiece to form a powder coating layer. The powder is
cured by high temperature baking and leveling, so that different spraying effects are obtained by using different powder.

Packaging & Shipping

Shipping Delivery time: 25-40 days after payment receipt confirmed ( based on actual quantity).

Packaging: Standard export packing. Or customized as your request.

Specification

Place of Origin ZheJiang , China
Our Services Assembly, CNC machining, CNC Milling/turning, Die casting, Aluminum extrusion, 

Rubber molding, Sheet metal stretching, Stamping, Laser Cutting, Welding, Bending, 

Permanent casting,  Cold drawn steel, Forging, Injection molding, Investment casting, 

Plastic machining

Materials Aluminum: 2000 series, 6000 series, 7075, 5052, 3003, etc
Stainless Steel: SUS303, SUS304, SS316, SS316L, 17-4PH, etc
Steel:12L14, 1215, 4144, 1045, Q355B, 4140, SCM440, 42CrMo, etc
Brass: C36000, C48500, H59, H62/Bronze/Copper
Titanium: Grade F1-F5
Plastic: Acetal/POM/PA/Nylon/PC/PMMA/PVC/PU/Acrylic/ABS/PTFE/PEEK etc.
Surface Treatment Aluminum anodizing, Mirror polishing, Powder coating, Painting, Plastic plating, 

Zinc plating, Nickel plating, Chrome plating, Electroless nickel plating, PVD, 

CVD,  etc

File Formats PDF, DWG, DXF, TIF, Stp, STEP,  IGS, etc.

 

Company Profile

Our company is a professional contract manufacturer of custom engineered parts and components. Our in house manufacturing process includes die casting, machining, stamping, welding, powder coating, painting and assembly. With over 10 years of experience of serving overseas customers, now over 95% of our products are for export. We know North America and Europe quality and technical requirements very well. Our sales center is in Toronto, Canada, there is a strong sales team. In HangZhou, China, we have also a sales service office. We are ISO9001: 2000 certified. Quality and customer satisfaction are always our priority.

Exhibition

 

FAQ

1. Who are we?

We are based in ZheJiang , China, start from 2003,sell to . There are total about 101-200 people in  our office. Over 30 years of serving foreign customers, Meco has built a strong engineering,  QC and project management team to provide customers with in housing processes of die casting,  injection molding, CNC machining, stamping, powder coating and assembly, and subcontracted  processes of investment casting, forging, anodizing and different plating.

2. How can we guarantee quality?
Always a pre-production sample before mass production;
Always final Inspection before shipment;

3.What can you buy from us?
Manufacturing & Processing Machinery, Lights & Lighting, Auto Parts & Accessories, Security & Protection, Furniture & Furnishing

4. Why should you buy from us not from other suppliers?
Meco is a contract manufacturer. From our manufacturing facility in HangZhou, China, we can provide our customers products with ODM & OEM and manufacturing services with process of die casting, injection molding, CNC machining, stamping, powder coating and assembly.

5. What services can we provide?
Severing overseas customers since 1996, Meco has built up a strong and experienced team of  engineering, QC, project management and very strong resource integration abilities, providing complete services from product design & development, to mass production and comprehensive logistic arrangement, we can satisfy our customers’ various kinds of procurement strategies, and totally improve your effectiveness and competitiveness. Make their work easier and more efficient.

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After-sales Service: None
Warranty: None
Material: 20mncr5hl
Process: CNC Turning
Drawing Format: 2D/(Pdf/CAD)3D(Iges/Step)
Equipment: CNC Machining Centres
Samples:
US$ 0/Piece
1 Piece(Min.Order)

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Request Sample

Customization:
Available

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Customized Request

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

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 high quality OEM ODM Cold Forged and CNC Turned Shaft for Automotive Front Axle   axle carrierChina high quality OEM ODM Cold Forged and CNC Turned Shaft for Automotive Front Axle   axle carrier
editor by CX 2024-02-27