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Home – Services – CNC Turning And Milling

What is CNC turning and milling

CNC mill-turn machining, also known as turning-milling compound processing, is an advanced manufacturing technique that combines the precision of turning with the versatility of milling in a single setup. This integration allows for the creation of intricate geometries and complex features on a workpiece without the need for multiple setups, thereby enhancing efficiency and precision. The process begins with the raw material (metal or plastic) being loaded into the machine. Once the program is initiated, the machine rotates the material and moves the cutting tools along the desired path. The turning spindle handles operations like creating cylindrical shapes and profiles, while the milling spindle is responsible for tasks such as drilling holes or milling slots. This seamless combination of processes not only boosts productivity but also minimizes setup times and potential errors, making it an ideal choice for industries where high-quality, complex parts are required, such as automotive, medical, aerospace, and electronics.

How does cnc turning and milling work?

CNC turning and milling is an advanced manufacturing process that enables turning and milling operations to be performed simultaneously in a sequential manner by means of a machining center equipped with a lathe spindle and a milling spindle. The process first involves loading the raw material (metal or plastic) into the machine and then loading a program that causes the machine to begin rotating the material and moving the cutting tool along the desired path. The lathe spindle is responsible for turning operations, such as creating cylindrical shapes or contours, while the milling spindle is used for milling operations, such as creating holes or slots in the material. This integrated approach to machining increases productivity, reduces clamping errors, and ensures high accuracy and consistency of parts, which are widely used in the production of automotive, medical, aerospace, and electronic parts.

SCZY LTD Specialized CNC turning and milling services

With a team of highly skilled engineers, SCZY LTD offers a full range of CNC mill-turn services, including precision component machining, tight tolerances and consistent quality control for one-off fixtures, high-speed machining for increased efficiency, and customized solutions to meet complex requirements, ensuring high-quality and efficient deliveries.

Our CNC turning and milling services include:

1/ Precision machining of parts using turning and milling equipment;

2/ Tight tolerances and consistent quality for one-off fixtures;

3/ High-speed machining capability for improved efficiency;

4/ Customized solutions to meet complex customer needs;

Why can you trust SCZY LTD?

CNC Machining Parts Gallery

Large or small workpieces with machinable lengths and widths of 1–2000 mm. SCZY LTD can also provide surface treatment and assembly services upon request.

Turning And Milling Composite Surface Treatment

We provide one-stop, high-quality surface treatment covering sandblasting, anodizing, electroplating, electrophoretic coating, baking, chemical conversion coating, passivation, polishing, blackening, and QBQ protection, meeting strict industry requirements. Each process includes professional testing with data on film thickness, hardness, color, salt spray corrosion resistance, and adhesion. These ensure quality, giving products excellent protection, aesthetics, reliability, and stability.

Standard (As-Machined)

This finish refers to parts just after the machining process, sometimes followed by minor grinding. It contains tool marks, small burrs & chips, but provides tight tolerances. The roughness can be as low as 3.2 μm. This finish is suitable when aesthetics is not a requirement.

Bead Blasting

Bead blasting strikes the tiny glass, ceramic, or other beads on the machined surface at high pressure to remove tool marks, burrs, chips, and other surface irregularities. It produces a light and smoothie texture with an attractive appearance.

Anodized (Type II Or Type III)

The CNC-machined aluminum or non-ferrous parts can be anodized, which refers to adding and protective oxide layer on their surface. Type II is clear and color anodizing, whereas type III (MIL-A-8625/MIL-PRF-8625) refers to hard coating. Anodized surfaces resist harsh environments and save the parts from corrosion, wear, and surface degradation.

Powder coating

It is the electrostatic deposition of a thin powder layer(powder of epoxy, polyester, etc) and curing at high temperature, up to 400. Powder coat surfaces are highly corrosion-resistant and can be achieved in any color. It is applicable to all material-type machine parts with complex geometries.

Polishing

Polishing can be applied through electrochemical and mechanical methods. It produces a smooth and fine, mirror-like finish with Ra as low as 0.3 μm. This surface finish is preferred for machined parts if low-surface friction is essential for performance or aesthetics is important.

Black-Oxide

Black oxide is a surface treatment for ferrous materials that creates a sleek black appearance and offers mild corrosion resistance. It chemically converts the metal surface into an oxide layer, preserving tight tolerances. This finish is ideal for precision components where a low-reflective, durable surface is desired.

Turning And Milling Services Available Materials

SCZY LTD specializes in machining aluminum alloy, brass, titanium alloy, and engineering plastics (ABS, POM) with advanced five-axis CNC technology. Our custom services deliver ±0.01mm tolerance precision, serving aerospace, medical, and automation sectors with precision parts.

Extensive Industry Experience

SCZY LTD’s milling and turning deliver precision across industries: milling masters complex contours for micro-optical brackets, aviation connectors, etc., while turning excels at rotary parts—ensuring optical shaft finish, oil/gas valve core stability, and more. Together, they reliably meet diverse needs of clients in 20+ countries.

Automotive

Robotics

Energy

Medical Equipment

Optical Lens

Aerospace

CNC Turning and Milling Composite FAQ

Browse our turning and milling composite machining services FAQ to learn more about our turning and milling composite machining services and how we can support your manufacturing needs.

1. What are the advantages of combined turning and milling compared to traditional turning/milling?

Turning and milling composite machining can complete multiple processes such as turning, milling, and drilling in a single clamping, reducing clamping errors (tolerance up to ±0.01 mm) and shortening the production cycle by more than 30%. It is especially suitable for processing complex irregular parts.

2. What materials can be processed by milling and turning composite machines?

Supports metals such as aluminum alloy, stainless steel, and titanium alloy, as well as engineering plastics such as ABS and POM. For high-hardness materials (such as titanium alloy), cutting parameters can be optimized to ensure processing stability.

3. How accurate is milling and turning composite machining?

Dimension tolerances as tight as ±0.01mm and surface roughness as low as Ra≤0.8μm meet the stringent requirements of industries such as aerospace and medical for precision components, and multi-axis interpolation ensures accuracy for complex surfaces.

4. What types of parts are suitable for milling and turning composite machining?

Suitable for parts with complex curved surfaces, irregular structures, or multiple process integration, such as aerospace brackets, medical device connectors, and automated equipment shaft parts, especially suitable for small and medium batch customization.

5. How long is the production cycle for combined turning and milling?

Prototypes: 1-3 days; small to medium batches (50-500 pieces): 5-10 days. Specific delivery times are adjusted based on part complexity and material. Rush orders are supported with a 24-hour rapid response.

6. Can parts undergo surface treatment after combined turning and milling?

It can be directly connected to surface treatment processes such as sandblasting, anodizing, and electroplating. Due to its high processing precision, it can maintain dimensional stability and surface finish after surface treatment.

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