Aluminum Machining Factory from China

CNC Turning, CNC Milling, 5-axis CNC Machining services for custom aluminum alloy part

In the field of precision machinery manufacturing, aluminum parts are widely used in the aerospace, automotive, electronics, medical equipment, and defense industries due to their lightweight, corrosion resistance, and ease of machining.

Our company specializes in OEM CNC aluminum machining services and 5-axis CNC machining services, providing customized solutions with top-quality standards and efficient delivery. Our team of experienced engineers and skilled technicians utilize high-performance machining equipment and continuously refine processing techniques to help our clients maintain a competitive edge across various industries.

  1. High Precision with Strict Tolerance Control
    Equipped with advanced five-axis CNC machining and stringent quality control processes, we achieve accuracy up to ±0.01mm, ensuring that each product meets customers’ exact design requirements.

  2. Diverse Aluminum Alloy Options
    We offer machining services for various aluminum alloys, including 6061, 7075, 5052, and more, suitable for different applications. 6061 aluminum offers excellent mechanical properties for general industrial use, while 7075 aluminum, with higher strength, is ideal for the stringent demands of the aerospace industry.

  3. Advanced Surface Treatment Options
    Our range of surface treatments includes anodizing, sandblasting, electrophoresis, and powder coating, enhancing corrosion resistance, durability, and aesthetics. We can customize specific colors and textures for machined aluminum part according to customer requirements, ensuring products that perform well and look impressive.

  4. Flexible Production Capacity and Fast Delivery
    With low minimum order quantities (MOQs) starting at just one piece, we cater to both sample and bulk production needs. Our efficient production process supports quick turnaround, allowing us to deliver large orders within two to four weeks to secure your time-to-market advantage.

  5. Professional Technical Support
    Our engineering team, experienced in aluminum part machining, provides full-process support from design to production. Whether it’s complex 3D shapes or challenging machining requirements, our technical team delivers efficient solutions tailored to each project.

 

Advantages of Our OEM CNC Aluminum Machining Services

 

Five-axis CNC Machining Aluminum

Our five-axis CNC aluminum machining services not only offer efficient production capabilities but also boast exceptional technical advantages that set us apart in the industry. With our state-of-the-art five-axis machining technology, we are able to achieve high-precision processing of complex geometries, ensuring strict tolerances and superior surface quality for aluminum components.

For instance, we can expertly machine high-demand components such as turbine blades for the aerospace sector, engine components for the automotive industry, and heat sinks for electronic devices. Additionally, we specialize in crafting intricate parts like propellers for drones and spacecraft, as well as impellers for diesel engine turbochargers. These applications require meticulous attention to detail and adherence to rigorous industry standards, which our experienced team consistently delivers.

Our skilled engineers leverage advanced software and machining techniques to optimize each project, allowing for innovative designs and improved performance. We understand the importance of reliable supply chains, which is why we prioritize quick turnaround times without compromising quality.

By choosing our five-axis CNC aluminum machining services, you gain a strategic partner committed to providing exceptional product quality, technical expertise, and comprehensive support throughout the entire process. Whether you are developing prototypes or scaling up production, we are here to help you achieve your goals with confidence. Experience the difference in precision and quality with our advanced machining solutions today!

CNC Machining Aluminum Alloy 

Aluminum alloys possess a variety of properties, including flexibility, weldability, high strength-to-weight ratio, corrosion resistance, lightweight, electrical conductivity, and excellent anodized surface finish. Aluminum alloy components are widely used in both industrial and civilian applications. We have a proven track record of successfully processing various aluminum alloy materials, including profiles, cast blanks, and forged blanks.

Machining 6061 Aluminum Alloy

Applications: 6061 aluminum is widely used in aerospace, automotive, construction, machinery, and marine industries. Common applications include frames, structural components, and body parts.

Machining Properties: Easy to machine and weld; suitable for CNC machining, cutting, and milling. Can be heat-treated to enhance strength.

Castability: Good casting performance, suitable for cast parts.

Forgability: Fair forgability, but strength is slightly lower than 7075 aluminum alloy.

Machining 7075 Aluminum Alloy

Applications: 7075 aluminum is primarily used in aerospace and military fields; suitable for high-strength components like aircraft structures, brackets, and weapon parts.

Machining Properties: More difficult to machine, but has high strength after heat treatment; suitable for high-performance applications. Requires larger tools and lower feed rates for machining.

Castability: Poor casting performance, typically not used for casting.

Forgability: Good forgability, suitable for forging parts.

Machining 5052 Aluminum Alloy

Applications: 5052 aluminum is widely used in marine applications, automotive fuel tanks, vehicle bodies, and various industrial equipment.

Machining Properties: Good cold working properties, suitable for forming and welding; often used to manufacture complex shapes.

Castability: Poor casting performance, typically not used for casting.

Forgability: Good forgability, suitable for forging processes.

Machining 2024 Aluminum Alloy

Applications: 2024 aluminum is mainly used in aerospace applications, suitable for high-strength components such as fuselage, wings, and aircraft structures.

Machining Properties: Good machining performance but poor welding properties; suitable for mechanical processing.

Castability: Average casting performance, typically not used for casting.

Forgability: Good forgability, suitable for hot forging.

Machining 3003 Aluminum Alloy

Applications: 3003 aluminum commonly used in chemical and food processing industries; suitable for manufacturing cookware, storage tanks, and various containers.

Machining Properties: Very easy to machine and weld; suitable for various forming processes.

Castability: Poor casting performance, typically not used for casting.

Forgability: Good forgability, suitable for forging.

Machining 6063 Aluminum Alloy

Applications: 6063 aluminum is widely used in building profiles, window frames, door frames, and aluminum bridges.

Machining Properties: Easy to machine and form; good welding properties, suitable for complex profiles.

Castability: Good casting performance, suitable for cast parts.

Forgability: Good forgability, suitable for forging.

Machining 7050 Aluminum Alloy

Applications: 7050 aluminum is primarily used in the aerospace industry, suitable for manufacturing high-strength and high-fatigue-resistance components, such as aircraft structures and wing supports.

Machining Performance: Relatively difficult to machine, but can achieve good results under appropriate conditions.

Castability: Poor casting performance, typically not used for casting.

Forgability: Good forgeability, suitable for hot forging.

Machining 6060 Aluminum Alloy

Applications: 6060 aluminum is suitable for building profiles, automotive, and electrical equipment, commonly found in frames and structural parts.

Machining Performance: Easy to machine, good welding performance, suitable for various forming processes.

Castability: Average casting performance, not commonly used for casting.

Forgability: Good forgeability, suitable for forging.

Machining 1100 Aluminum Alloy

Applications: 1100 aluminum alloy is widely used in chemical, food processing, and pharmaceutical industries, suitable for making containers and pipes.

Machining Performance: Very easy to machine and weld, suitable for various forming and processing methods.

Castability: Poor casting performance, typically not used for casting.

Forgability: Good forgeability, suitable for forging.

Machining A356 Aluminum Alloy

Applications: A356 aluminum is commonly used for cast components, such as automotive parts and industrial equipment.

Machining Performance: Good casting performance, suitable for heavy-duty and structural parts.

Castability: Excellent, suitable for precision casting.

Forgability: Average forgeability, mainly used for casting.

Machining 5754 Aluminum Alloy

Applications: 5754 aluminum is widely used in shipbuilding, automotive bodywork, and construction structures.

Machining Performance: Good welding performance and forming capability, suitable for manufacturing complex-shaped parts.

Castability: Poor casting performance, typically not used for casting.

Forgability: Good forgeability, suitable for forging.

Machining 4045 Aluminum Alloy

Applications: 4045 aluminum is commonly used for manufacturing heat exchangers and automotive radiators.

Machining Performance: Good machining performance, suitable for various processing methods.

Castability: Average casting performance, not commonly used for casting.

Forgability: Suitable for forging, but primarily used for welding and joining.

Our Machining Aluminum Part

Custom machining aluminum part from drawing or idea to production

 

 

 

Integrated machining process for aluminum

The integrated machining process for aluminum alloys leverages multiple advanced techniques—casting, forging, extrusion, and precision machining—to maximize the material’s inherent advantages of lightweight strength, corrosion resistance, and versatility. Each stage is specifically tailored to bring out the best in aluminum, producing high-quality components that are both functional and cost-effective for a wide range of applications.

In casting, molten aluminum is poured into custom molds to create complex, detailed shapes that would be difficult to achieve otherwise. This process is particularly valuable for industries like aerospace and automotive, where intricate aluminum components need to be lightweight yet robust. Moving into forging, aluminum undergoes high temperatures and controlled pressure, which align the grain structure, increasing strength and resilience—making it suitable for high-stress parts such as brackets, gears, and wheels.

The extrusion process transforms aluminum by forcing it through a die, producing long profiles with uniform cross-sections. This method is ideal for creating aluminum structural shapes like beams, frames, and rails that are widely used in construction, electronics, and automotive industries. Aluminum extrusion parts can be made to precise dimensions, providing structural stability and aesthetic appeal in architectural and industrial projects.

Precision machining brings the aluminum part to its final shape, achieving tight tolerances, superior surface finishes, and fine details. Machining processes such as milling, drilling, and turning are crucial for refining aluminum components to meet strict industry standards in fields like electronics, medical devices, and aerospace, where accuracy and reliability are paramount.

This integrated approach to aluminum processing combines the strengths of each method to produce parts that excel in durability, functionality, and efficiency, positioning aluminum as a premier choice across high-demand sectors. Through this comprehensive suite of processes, aluminum components achieve peak performance, offering unmatched value and adaptability to diverse industrial requirements.

 

Start Machining Aluminum Part Cooperation

 

-About us

We are a factory engineer-initiated.

-Files

We can accept DWG, STP, STEP, IGS, PRT, PDF files for custom machined aluminum drawing. We can build new drawing once you have no drawings or only have an idea.

-Lead time

Our general aluminum machining part, lead time is 7 days.

-Customer Service and Production Workshop

Both customer service and production workshop run 7*24 hours.

-Our Cost

We supply 30% lower than average cost for common and 5-axis machining aluminum machining parts.