CNC Turning Service
Precision in Every Revolution:
Our CNC Turning Service Sets the Standard.
  • Over 65 universal and complete Materials
  • ±0.005mm strict Tolerance
  • Lead times from 7 to 10 days
  • Custom styles and finishes
What is CNC Turning?
CNC turning is a method that involves removing material from a rotating workpiece using the linear path of tools in a CNC lathe. At its core, the process comprises two main components: the spindle, which holds and rotates the workpiece, and the cutting tool, which is positioned on a turntable.

Our CNC turning center, ANEBON, has extensive expertise in producing intricate and high-precision components using CNC lathes. We offer top-quality CNC machining for plastics, metals, and even wood, catering to rapid prototyping and small-scale production of turned components.
Why choose ANEBON's CNC turned service?

  • ISO 9001 Certification

    ANEBON is equipped with a well-established quality assurance department supported by a comprehensive quality management system. Our dedicated and highly trained quality control (QC) and quality assurance (QA) teams meticulously oversee every facet of the CNC milling processes, ensuring strict compliance with rigorous quality standards for your projects.

  • Complete grades and high-quality raw materials for production

    In ANEBON's material library, a comprehensive selection of processing raw materials is available, encompassing metals, plastics, and wood. Furthermore, we can provide material identification certificates for specific brands of materials to ensure the avoidance of inferior raw materials.

  • Extensive and practical surface treatment and material heat treatment

    At ANEBON, we offer the capability to customize a wide range of CNC-turned parts according to your specific requirements. Additionally, we provide an array of high-quality surface treatment options for most CNC-turned components. These treatments include anodizing, polishing, plating, heat treatment, and powder coating, ensuring that our products meet the highest standards of quality and durability.

  • High productivity and high cost-effective

    CNC turning constitutes an automated manufacturing process that operates continuously with minimal to no human intervention. This process is capable of performing multiple tasks simultaneously, such as cutting, drilling, and threading, thereby significantly reducing the overall manufacturing time required for any specific component.
     
    CNC lathes are programmable machines designed to optimize material utilization, which effectively minimizes waste and reduces material costs. Additionally, the ability to produce high-precision components decreases the necessity for costly rework or the generation of scrap due to quality or dimensional inaccuracies.

  • Precision that other manufacturers struggle to achieve

    Our tolerance specifications for Linear Dimensions are set at ± 0.01 mm (± 0.0004 in.), while tolerances for Hole Diameters and Shaft Diameters are established at ± 0.02 mm (± 0.0008 in.).
Our Maximum Capabilities For CNC Turning
Part size limitations Metric units lmperial units
Maximum Part Size 180×450 mm 7.1×17.7 in.
Minimum Part Size 2×2 mm 0.079×0.079 in.
Minimum Feature Size Φ 0.40 mm Φ 0.016 in.
CNC Turning General Tolerances
With our precise CNC machining capabilities, ANEBON is your ideal partner for producing accurate prototypes and parts. Our CNC machining complies with ISO 2768-f standards for metals and ISO 2768-m standards for plastics, ensuring both accuracy and quality. Additionally, we can meet any specific tolerances you may need, as long as you clearly specify your requirements on the drawing.
Type Tolerance
Linear Dimension +/-0.01 mm
+/-0.0004 in.
Hole Diameters +/-0.02 mm
(Not Reamed) +/-0.0008 in.
Shaft Diameters +/-0.02 mm
+/-0.0008 in.
 
CNC Turning Design Principles
ANEBON's expert machinists have developed precise specifications for producing accurate parts. The table presents the most effective manufacturing methods and highlights any technical limitations that must be considered during production.
Standard CNC Turning
Threads and Tapped Holes
Diameter:Φ1.5-5 mm, depth: 3xdiameter
Diameter: Φ 5 mm or more.depth: 4-6xdiameter
ANEBON can produce threads of any specification and size required by our customers.
Text
ANEBON can use laser marking to create standard text for CNC turned parts.
 ANEBON can use CNC engraving or laser carving to create standard text based on customers' requirements.
 
Materials For CNC Turning Parts

Metals

  • Aluminum
    10001
    Aluminum
    Aluminum alloys possess high strength-to-weight ratios, excellent electrical and thermal conductivity, low density, and a natural resistance to corrosion. They can be anodized using various techniques.
  • Stainless steel
    10002
    Stainless Steel
    The stainless steel alloys are known for their exceptional strength, ductility, and resistance to corrosion and wear. They can be easily joined, machined, and polished.
  • Alloy Steel
    steel1018电镀锌-4
    Alloy steel
    Alloy steels include additional alloying elements beyond carbon, resulting in improved properties like greater hardness, toughness, fatigue resistance, and wear resistance.
  • Brass
    10003
    Brass
    Brass is easy to machine, has a favorable strength-to-weight ratio, resists corrosion, and conducts electricity and heat efficiently.
  • Copper
    10004
    Copper
    Copper is an incredibly malleable metal that is useful in a variety of applications due to its mechanical properties. It demonstrates impressive durability, hardness, and exceptional thermal and electrical conductivity, as well as resistance to corrosion. Because of these qualities, copper is highly sought after for its practical uses and aesthetic appeal. Additionally, copper can be alloyed with other metals, which further enhances its mechanical characteristics.
  • Titanium
    10005
    Titanium
    Titanium has a range of characteristics that make it an ideal metal for challenging applications. These include exceptional resistance to corrosion, chemicals, and extreme temperatures, as well as a remarkable strength-to-weight ratio.

Plastics

  • ABS
    ABS-CNC-MILLING
    ABS
    ABS is a commonly used thermoplastic with excellent mechanical properties, remarkable impact resilience, consistent heat resistance, and good machinability.
  • FR4
    10007
    FR4
    FR4, known for its excellent mechanical strength and superior electrical insulation, is the ideal choice for electronic applications due to its machinability.
  • HDPE
    10008
    HDPE
    HDPE shows exceptional impact resistance, high strength, and excellent machinability, making it ideal for creating durable and sturdy machine components.
  • PE
    10009
    PE
    PE is known for its impressive impact resistance, outstanding ductility, and low friction, making it an ideal material for producing wear-resistant parts through machining techniques.
  • PA6
    PA6-CNC-MILLING
    PA6 (Nylon)
    In machining applications where components are subjected to significant mechanical stress, PA6 is an excellent choice due to its high strength, wear resistance, and elasticity. This material is particularly noteworthy because of its impressive durability and ability to withstand demanding conditions.
  • PA66
    PA66-CNCMILLING-scaled
    PA66 (Nylon)
    PA66 has several advantageous properties, including high rigidity, hardness, wear resistance, and thermal dimensional stability. It also exhibits exceptional wear resistance, low friction, and excellent resistance to temperature, chemicals, and impact. However, it is important to handle PA66 carefully during processing, as it can absorb moisture, which may affect its dimensional stability.
  • PC
    10012
    PC (Polycarbonate)
    PC is a thermoplastic material known for its remarkable resilience, exceptional impact resistance, and ease of machining. Additionally, it can exhibit optical transparency.
  • PEEK
    10013
    PEEK
    PEEK is known for its exceptional strength, outstanding ability to withstand high temperatures, and excellent machinability. These qualities make it an ideal choice for a variety of high-performance applications. PEEK offers remarkable thermal resistance and superior machinability, making it perfectly suited for demanding uses in various industries.
  • PMMA
    PMMA-CNC-MILLING-scaled
    PMMA
    PMMA offers outstanding light transmission, excellent mechanical strength, and superior machinability, making it an ideal material for optical and aesthetic applications. Its remarkable clarity and durability, combined with its ease of machining, make PMMA a great choice for various uses in both optical and aesthetic fields.
  • POM
    POM-CNC-MILLING
    POM (Delrin/Acetal)
    Precision parts that require high rigidity, low friction, and excellent dimensional stability benefit from using POM, an engineering thermoplastic.
  • PP
    PP-CNC-MILLING-scaled
    PP
    With outstanding fatigue resistance, excellent chemical resilience, and impressive elasticity, polypropylene (PP) is ideally suited for manufacturing lightweight and flexible machined parts.
  • PP5
    PP5-CNC-MILLING-scaled
    PP5
    PPS has excellent chemical resistance, high strength, and exceptional machinability, making it an ideal choice for producing high-performance components.
  • PVC
    10018
    PVC
    PVC is the third most widely used plastic, known for its balanced mechanical properties, excellent chemical and weather resistance, and remarkable toughness.

Others Materials

  • Carbon Fiber
    10019
    Carbon Fiber
    When it comes to machining, carbon fiber, often referred to as graphite fiber, stands out due to its impressive strength and lightweight characteristics. It offers five times the strength and double the stiffness of steel, making it a highly desirable material in the machining industry.
  • Wood
    10020
    Wood
    Natural aesthetic appeal: Wood offers a warm and visually pleasing appearance, adding a natural charm to products. Versatility: Wood can be easily shaped and carved using CNC machines, allowing for intricate designs and customization. Sustainability: Wood is a renewable resource, making it an environmentally friendly choice for CNC-processed products. Cost-effectiveness: Compared to other raw materials, wood can be relatively affordable, making it a cost-effective option for production. Durability: With proper maintenance and treatment, wood can have good resistance to wear, tear, and impact.
Surface Finish Choices For CNC Turned Parts
ANEBON provides a variety of surface finishes to improve the quality of CNC milled components, catering to diverse customer needs. Surface treatments alter appearance, surface roughness, and chemical resistance.
 
Name Description Materials Color Texture
As-machined Our standard finish for parts is called "as machined" finish. This type of finish
has a surface roughness of Ra 3.2 μm (126 μim), and all sharp edges are
removed and parts are deburred. You may notice visible tool marks on the
surface. Please note that this finish meets the requirements specified for non-cosmetic availability.		 All materials N/A Stain
Anodizing increases corrosion resistance, wear resistance, and hardness
while maintaining the surface of the metal.		 Aluminum Gold, blue, clear, black, red, grey Matte
smooth
finish
The surface of the parts or product is left with a matte finish. It is mainly
used for aesthetic purposes.		 Steel, Stainless steel, Aluminum, ABS N/A Matte
In this surface-treatment technique, rough belts are utilized to leave marks on
a material's surface. This is typically done for aesthetic reasons.		 Steel, Stainless Steel, Aluminum, Brass,
Copper		 N/A Stain
This includes decorative and functional options. Electroplating is another
example, as it is a way to manipulate properties using electrical tools.		 Stainless Steel, Steel, Aluminum Black, Grey, Clear, Gold, Blue, Red Glossy,
smooth
finishh
Polishing is the process of giving an object a shiny, smooth surface by
rubbing it or using chemicals.		 Steel, Brass, Stainless Steel, Aluminum N/A Glossy
Powder coatings use a free-flowing, dry powder. Electrostatically applied
powder coatings are then hardened with heat or UV.		 Steel, Stainless Steel, Aluminum Black, Pantone number, or RAL code Semi-
glossy or
glossy
Die castings can be painted with various coatings for specific color, texture
or protective properties. Paint finishes range from basic painting to more
advanced techniques such as electrostatic painting or dipping.		 Aluminum, Stainless
Steel, Steel		 Black, any RAL code or Pantone number Semi-
glossy or
glossy
Chrome plating is the process of depositing a thin layer of chromium on the
surface of die castings by electroplating. This process produces a shiny
reflective finish and offers excellent corrosion resistance.		 Stainless Steel, Steel, Aluminum Black, Grey, Clear, Gold, Blue, Red Semi-
glossy or
glossy
You can choose from different custom finishes depending on your materials
and end-use.		 All materials N/A N/A
Gallery Of Our CNC Milling Parts
CNC Turning 191007-19
CNC Turning 191007-19
CNC Turned Plastic Turning Services
CNC Turned Plastic Turning Services
Aluminum CNC Service-2 anodized
Aluminum CNC Service-2 anodized
Aluminum Turning
Aluminum Turning
CNC Turning Brass Fitting 200715-1
CNC Turning Brass Fitting 200715-1
Brass Turned Parts-03
Brass Turned Parts-03
Aluminum Turning Spare Parts -1
Aluminum Turning Spare Parts -1
Applications Of CNC Milling
Untitled-design-1-500x300
Automobiles
ANEBON utilizes CNC milling technology to manufacture engine components, producing essential parts such as cylinder heads, engine blocks, and crankshafts with exceptional precision and stringent tolerances.

In the realms of mold, tool fabrication, and custom prototyping, automotive manufacturers employ CNC milling to develop prototypes and evaluate new vehicle designs efficiently. This iterative process facilitates necessary adjustments and enhancements prior to initiating large-scale production.
Untitled-design-5-1-500x300
Unmanned Aerial Vehicle 
ANEBON specializes in CNC milling, a widely utilized technique for the production and fabrication of unmanned aerial vehicle (UAV) components. CNC milling entails the precise removal of material from a workpiece, guided by computer control, to attain the desired geometric configuration. Within the drone industry, CNC milling plays an essential role in the manufacture of critical components, including frames, brackets, and propeller mounts, employing materials such as aluminum, carbon fiber, and plastics.
 
consumer-electronics-500x300
Electronic
In the realm of printed circuit board (PCB) prototyping, ANEBON employs advanced CNC milling techniques to produce highly accurate PCB prototypes. This method encompasses the precise engraving of copper traces and the drilling of holes, thereby enabling engineers to validate and refine their designs prior to initiating large-scale production.

Moreover, CNC milling possesses a wide array of applications, including the customization of unique casings, the intricate manufacturing of connectors, and the creation of front panels and displays that necessitate meticulous engraving.
medical2-500x300
Medical
CNC turning is extensively employed in the medical equipment sector to manufacture precise cylindrical components used in a variety of medical devices, including implants, surgical instruments, and prosthetics.

The applications encompass the production of microscopic parts for gastrointestinal endoscopy equipment as well as the fabrication of custom tools and fixtures that are vital for medical research and testing. Furthermore, CNC milling plays an integral role in the development of surgical guides, which are essential for ensuring accurate instrument positioning during surgical procedures, thereby enhancing precision and reducing invasiveness.
aerospace-turning-500x300
Aerospace
In the aerospace industry, ANEBON employs CNC milling technology to manufacture critical components for aircraft engines, including turbine blades, combustion chambers, and compressor parts. This precise and meticulous process guarantees exceptional accuracy and durability.

Furthermore, CNC milling is integral in the formation of structural elements such as wing spars, frames, and bulkheads in aircraft, thereby ensuring the structural integrity and resilience of these aerospace vehicles.
 

FAQ

  • 1 What is the difference between CNC milling and CNC turning?

    CNC milling and CNC turning are distinct machining processes that differ in their operational mechanisms, the types of machines utilized, and the kinds of components they are capable of producing.
     
    CNC milling involves the utilization of a rotating cutting tool that moves across a stationary workpiece to remove material from its surface. This milling process is capable of generating a wide variety of geometries, including smooth and inclined surfaces, as well as grooves and slots.
     
    In contrast, CNC turning involves the rotation of the workpiece while the cutting tool remains stationary, shaping the material to meet specified requirements. This technique is primarily employed for the creation of cylindrical components and is particularly well-suited for producing symmetrical parts such as shafts, pins, and bushings.

  • 2 What is the difference between rough turning and finish turning?

    1. **Cutting Depths:** Rough turning is characterized by the removal of significant amounts of material at a rapid pace to achieve a desired shape, allowing for substantial cutting depths. Conversely, finish turning employs shallower cutting depths to enhance surface finish and achieve highly accurate dimensions.
     
    2. **Speed:** Rough turning is typically conducted at higher speeds to facilitate the swift removal of material, whereas finishing turning is performed at reduced speeds to produce smoother surfaces with greater precision.
     
    3. **Tool Selection:** Due to the requirement for larger cuts, rough turning generally utilizes larger and more robust tool inserts. In contrast, finish turning typically employs smaller and lighter tool inserts designed to provide an improved surface finish.
     
    4. **Cutting Path:** Rough turning primarily adheres to a straight cutting path. In contrast, finishing turning may implement a technique known as "light cuts," wherein the tool follows a slightly curved trajectory to achieve the desired finish.

  • 3 What are the advantages and disadvantages of CNC lathe processing?

    The advantages of CNC Lathe Processing:
     

    • Advanced Precision: CNC lathes are able to achieve extraordinary degrees of precision, as well as precision, making them perfect for jobs that require precise tolerances. They are able to create intricate and complex parts with high quality and consistency.
       
    • Reliability: CNC lathes can replicate the same piece of work repeatedly without variations. This is vital in the aerospace or automotive industry. Components need to meet the strictest quality standards.
       
    • Flexibility: CNC lathes can be programmed to make a diverse assortment of parts, ranging from basic to extremely complicated geometries. They are able to handle a variety of types of materials, including metals, plastics, and composites.
       
    • Effectiveness: CNC lathes operate continuously without needing breaks, which reduces downtime and increases productivity. They can be run without supervision, even at night, which saves time and costs for labor.
       
    • Easy Prototyping: CNC lathes can quickly make prototypes and smaller batches of parts, which allow for quick design iterations and testing.

     

    Disadvantages associated with CNC Lathe processing:
     

    • Maintenance and downtime: CNC machines require regular maintenance, and sudden breakdowns can cause costly downtime. Maintenance and repairs of CNC lathes can be costly.
       
    • Complexity of Programming Programming Complex: CNC programs for complicated parts can take a long time and require knowledge. Programming errors can cause costly errors.
       
    • Limits of Flexibility: CNC lathes excel in precision repetitive tasks, but they're not as flexible for one-off and small-scale production runs, whereas manual machining could be more effective.
       
    • Capital intensive: CNC lathes may require an investment in capital to purchase fixtures, tools, and other accessories. This could further raise the cost of implementing this technology.
       
    • Dimension Limitations: CNC lathes come in a variety of sizes; however, very small or extremely large parts might require special equipment.
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