CNC Milling Service

  • Over 65 universal and complete Materials
  • ±0.005mm strict Tolerance
  • Lead times from 7 to 10 days
  • Custom styles and finishes
  • More than 650mm processing path
CNC Milling Introduction
CNC milling is a precision manufacturing technology that employs computer-controlled equipment to remove material from a workpiece. This procedure uses a revolving cutting tool to carve specified forms from solid blocks of material.

CNC milling machines are highly precise and capable of producing complicated designs. Furthermore, they may be programmed to manufacture several identical components, making milling an economically efficient manufacturing method.
Why Choose ANEBON’s CNC Milled Service?
ANEBON provides comprehensive milling solutions that are customized to meet your needs, whether you require parts for large-scale mass production, a single component, or a small batch of prototypes.

  • Cost Efficiency

    ANEBON is well-regarded for its historically competitive strategy in the manufacturing sector. This competitive approach extends to labor costs, which may yield significant cost advantages for CNC milling services.

  • Cutting-Edge Technology

    ANEBON consistently invests in state-of-the-art CNC milling equipment and technology to maintain global competitiveness. This investment directly contributes to precision and production efficiency.

  • Tailored Solutions

    ANEBON's CNC milling services are recognized for their flexibility in addressing distinct machining needs, offering tailored solutions to meet specific requirements.


  • Efficient Supply Chain

    ANEBON possesses a well-established supply chain network for the procurement of materials and components, which significantly enhances cost efficiency and reduces lead times.

  • Skilled Workforce

    ANEBON possesses a significant talent pool that includes highly skilled engineers and technicians with extensive expertise in CNC milling and related machining processes.

  • ISO 9001 Certification

    ANEBON is equipped with a sophisticated 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 aspect of the CNC milling processes, ensuring strict compliance with the highest quality standards for your projects.
Our Maximum Capabilities For CNC Milling
Part size limitations Metric units lmperial units
Maximum Part Size 3800×1300×500 mm 149.6×51.8×19.7 in.
Minimum Part Size 4×4 mm 0.1×0.1 in.
Minimum Feature Size Φ 0.40 mm Φ 0.016 in.
CNC Milling General Tolerances
For accurate prototypes and parts, ANEBON is the perfect partner thanks to our precision CNC machining skills. Our CNC machining ensures accuracy and quality by adhering to ISO 2768-f standards for metals and ISO 2768-m standards for plastics. If you specify your requirements in detail on the drawing, we can also adhere to any particular tolerances you may need.
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 Milling Design Principles
ANEBON's professional machinists have created detailed requirements for fabricating parts. The chart lists the most efficient manufacturing processes and underlines any technological constraints that must be addressed 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
Minimum width of 0.5 mm, depth of 0.1 mm
ANEBON can use CNC engraving or laser carving to create standard text based on customers' requirements.
 
Materials For CNC Milling Parts

Metals

  • Aluminum
    Anebon-cnc-machining-aluminum-anodized-parts-3-scaled
    Aluminum
    Aluminum alloys have a high strength-to-weight ratio, great electrical and thermal conductivity, low density, and are naturally corrosion resistant. They can be anodised with a variety of ways.
  • Stainless steel
    CNC-Milling-190920-8
    Stainless Steel
    Stainless steel alloys are known for their high strength, ductility, corrosion resistance, and wear resistance. They are easily jointed, machined, and polished.
  • Alloy Steel
    CNC-Machined-201130-6
    Alloy steel
    Alloy steels are steels that contain other elements in addition to carbon. Manganese, chromium, nickel, molybdenum, and vanadium are some examples of such elements. They enhance the steel's mechanical qualities. As a result, alloy steels are tougher and better able to withstand stress. They are also more durable, allowing them to absorb energy and resist collisions without breaking. Furthermore, these steels are fatigue-resistant, which means they can withstand repeated loading and unloading without failing. They also have exceptional wear resistance, making them ideal for abrasion and friction-related applications. Overall, adding these components makes the steel more suitable for a variety of demanding applications.
  • Brass
    brass-cnc-parts1-1
    Brass
    Brass is a versatile metal alloy made mostly of copper and zinc, making it extremely easy to process into a variety of shapes and components. Its good strength-to-weight ratio makes it an excellent choice for applications that require both durability and lightweight properties. Furthermore, brass is highly resistant to corrosion, allowing it to tolerate harsh weather conditions and extend its useful life. It also has high thermal and electrical conductivity, allowing it to efficiently transfer heat and electricity, making it a preferred material for electrical and plumbing applications. Overall, the combination of these characteristics makes brass a highly desirable material in a variety of sectors.
  • Copper
    brass-cnc-parts-01
    Copper
    Copper is a highly malleable metal with mechanical qualities that make it useful in a range of applications. It is well-known for its durability, hardness, high thermal and electrical conductivity, and corrosion resistance. As a result, copper is highly valued for both its functional use and its aesthetic appeal. Additionally, copper can be alloyed with other metals to improve its mechanical properties even further.
  • Titanium
    Custom-CNC-Titaninum-1
    Titanium
    Titanium has a variety of material properties that make it an excellent choice for demanding applications. These characteristics include excellent resistance to corrosion, chemicals, and extreme temperatures, as well as a high strength-to-weight ratio.

Plastics

  • ABS
    ABS-CNC-MILLING
    ABS
    Acrylonitrile Butadiene Styrene (ABS) is a popular thermoplastic noted for its exceptional mechanical qualities, including high strength and durability. This adaptable material has strong impact resistance, making it ideal for applications requiring toughness. Furthermore, ABS has excellent heat resistance, allowing it to withstand high temperatures without losing structural integrity. Its great machinability adds to its attractiveness, allowing for easy fabrication and manipulation into a wide range of shapes and designs, making it a popular choice in many industries.
  • FR4
    FR4-CNC-MILLING
    FR4
    FR4 is an outstanding material known for its high mechanical strength, which assures endurance and resistance in harsh conditions. It also has excellent electrical insulating qualities, making it a solid alternative for a variety of electronic applications. Furthermore, FR4 has high machinability, which allows for simple processing and shaping to satisfy specific design needs. All of these characteristics make FR4 an excellent choice for applications in the electronics industry, where performance and dependability are critical.
  • HDPE
    HDPE-CNC-MILLING
    HDPE
    High-Density Polyethylene (HDPE) is well-known for its superior impact resistance, allowing it to sustain large force without splitting or deforming. Its exceptional tensile strength allows it to withstand enormous loads while resisting wear over time, making it a perfect material for a variety of applications. Furthermore, HDPE has high machinability, allowing it to be cut, molded, and built into intricate components with precision. These properties make HDPE a great choice for manufacturing long-lasting and dependable machine parts that must work under demanding operational conditions.
  • PE
    CNC-Machining-Parts-190924-2
    PE
    Polyethylene (PE) is distinguished by its excellent impact resistance, which allows it to absorb energy and bear high stress without breaking or deforming. This resilience makes it especially useful in contexts where materials are subjected to abrupt stresses or shocks. Furthermore, its excellent ductility allows it to be easily shaped and molded without sacrificing its integrity, making it suitable for a wide range of applications in diverse industries. Furthermore, PE has low friction when in contact with other surfaces, reducing wear and tear over time. This combination of qualities makes polyethylene a perfect material for producing wear-resistant components using a variety of machining processes, assuring their durability and dependability.
  • PA6
    PA6-CNC-MILLING
    PA6 (Nylon)
    PA6 is a suitable choice for machining applications involving significant mechanical stress. It combines high strength, wear resistance, and flexibility, making it an ideal material for components that must withstand significant mechanical strain.
  • PA66
    PA66-CNCMILLING-scaled
    PA66 (Nylon)
    PA66 has various advantages, including high stiffness, hardness, wear resistance, and superior thermal dimensional stability. It also has excellent wear resistance, minimal friction, and good resistance to temperature fluctuations, chemicals, and collisions. However, caution is advised when treating PA66 due to its susceptibility to absorb moisture, which can damage its dimensional stability.
  • PC
    PC-CNC-MILLING
    PC (Polycarbonate)
    Polycarbonate (PC) is a highly versatile thermoplastic material noted for its exceptional toughness and durability. It has outstanding impact resistance, making it an excellent choice for applications that require both strength and safety. Furthermore, PC is easily machined, allowing for fine shaping and modification to satisfy unique design needs. One of its most distinguishing characteristics is its optical transparency, which allows it to be utilized in goods requiring clarity and light transmission, such as protective eyewear and transparent enclosures.
  • PEEK
    CNC-Milling-Peek-Parts-4
    PEEK
    PEEK is well-known for its outstanding strength, high temperature resistance, and machinability. These properties make it an excellent choice for a variety of high-performance applications. PEEK's high durability and heat resistance make it ideal for demanding applications across a wide range of industries.
  • PMMA
    PMMA-CNC-MILLING-scaled
    PMMA
    PMMA has high light transmission, mechanical strength, and machinability, making it a suitable material for optical and aesthetic applications. PMMA's remarkable clarity, high durability, and ease of machining make it ideal for a wide range of applications in these sectors.
  • POM
    POM-CNC-MILLING
    POM (Delrin/Acetal)
    Precision components that require increased rigidity, lower friction, and superior dimensional stability can considerably benefit from the usage of Polyoxymethylene (POM), a well-known engineering thermoplastic. POM is known for its great strength and resilience, making it an excellent choice for applications requiring tight tolerances and long-lasting performance. Its low friction qualities allow for smoother movement in mechanical assemblies, while its outstanding dimensional stability guarantees that parts retain their shape and performance even under changing temperatures and moisture conditions. POM's mix of properties makes it a good choice for precision parts used in industries such as automotive, aerospace, and consumer electronics.
  • PP
    PP-CNC-MILLING-scaled
    PP
    Polypropylene (PP) stands out for its exceptional fatigue resistance, making it a perfect material for applications requiring resilience and endurance under repeated stress. Furthermore, PP's strong chemical resistance allows it to tolerate a wide range of aggressive compounds without degrading, ensuring reliability in tough situations. Furthermore, its high elasticity contributes to its ability to bend and flex without breaking, making it ideal for producing lightweight and flexible machined parts. This combination of qualities not only improves performance but also allows for a wide range of applications in industries such as automotive, consumer products, and medical devices, where strength and versatility are critical.
  • PP5
    PP5-CNC-MILLING-scaled
    PPS
    PPS, or polyphenylene sulfide, is well-known for its exceptional chemical resistance, making it extremely durable in severe conditions where exposure to numerous contaminants is a worry. This material also has exceptional mechanical strength, allowing it to tolerate high stress and pressure without losing structural integrity. Furthermore, PPS has excellent machinability, which means it can be easily shaped and produced into high-precision components with complex patterns. These characteristics, when combined, make PPS an outstanding choice for producing high-performance components in a variety of demanding applications, including automotive, aerospace, and beyond.
  • PVC
    PVC-CNC-MILLING-anebon
    PVC
    Polyvinyl chloride (PVC) is the third most widely used plastic in a variety of applications. This is mostly owing to its well-balanced mechanical qualities, which include a reasonable mix of strength, flexibility, and durability. PVC is well-known for its outstanding resistance to a wide range of chemicals, making it ideal for use in areas where harsh substances are frequently encountered. Furthermore, its capacity to tolerate diverse environmental conditions, such as UV light and harsh temperatures, ensures that it retains its integrity and effectiveness over time. Furthermore, PVC is remarkably robust, allowing it to withstand physical stress and wear, contributing to its endurance and dependability in both construction and consumer products.

Others Materials

  • Carbon Fiber
    CNC-Milling-191007-1
    Carbon Fiber
    Carbon fiber, also known as graphite fiber, is an ideal machining material because of its amazing strength and lightweight properties. It has five times the strength of steel and twice the rigidity, making it an extremely desirable material in the machining industry.
  • Wood
    WOOD-CNC-MILLING-scaled
    Wood
    Wood is visually appealing and lends a natural feel to items. It is versatile; you can simply mold and carve it using CNC equipment to create precise shapes and adaptations. Wood is also a sustainable option because it is a renewable resource, which benefits the environment. Furthermore, wood can be a cheaper option than other materials. With sufficient maintenance, wood can withstand wear, tear, and impact.
Surface Finish Choices For CNC Milled Parts
ANEBON offers a variety of surface finishes to improve the quality of CNC-milled components, meeting the different needs of our customers. Surface treatments can affect appearance, roughness, and chemical resistance.
 
Name Description Materials Color Texture
As-machined Our standard finish for parts is referred to as "as machined" finish. This finish has a surface roughness of Ra 3.2 μm (126 μin) and includes the removal of all sharp edges along with deburring. You may notice visible tool marks on the surface. Please note that this finish meets the requirements for non-cosmetic applications. 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
Why Order CNC Milled Parts From ANEBON?
quality
Uncompromising Quality
We demonstrate our great dedication to quality through the ISO 2768-m tolerance standard and ISO 9001 accreditation. We also include a full inspection report with each order.
efficient-1-e1692934498840
Efficiency Redefined
Submit your production needs online for smooth one-stop solutions, and we promise that your CNC parts will be delivered within 5-7 days.
anebon-icons-11-1-e1692932550218
Excellent precision
ANEBON uses cutting-edge CNC software and modern machining equipment, including precise and economical 3-axis, 4-axis, and 5-axis CNC machining centers. Our CNC parts have outstanding tolerances of up to +/- 0.005mm.
cooperation
Dedicated and Caring Service
Our committed sales team takes pleasure in providing exceptional post-sales support and solutions. We fully commit to addressing any potential concerns, ensuring that consumers can confidently navigate every stage of the process, from inquiry to final product delivery, with satisfaction.
Gallery Of Our CNC Milling Parts
milling-1-anodized
Milling-1 Anodized
cnc-rapid-3
CNC Rapid-3
CNC-Milling-191007-1
CNC Milling 191007-1
CNC-Milling-190928-9
CNC Milling 190928-9
cnc-machining-heat-sink
CNC Machining Heat Sink
Anebon-Milling-cnc-aluminum-anodizing
Milling CNC Aluminum Anodizing
anebon-milling-aluminum-cnc-milled-parts
Milling Aluminum CNC Milled Parts
Aluminum-7075-t6-aluminum-block-anodized-blue
Aluminum 7075 t6 aluminum block anodized blue
Applications Of CNC Milling
Untitled-design-1-500x300
Automobiles
ANEBON uses CNC milling to manufacture engine components, including cylinder heads, engine blocks, and crankshafts, with exceptional precision and rigorous tolerances.

Automotive manufacturers utilize CNC milling to quickly develop prototypes and evaluate new car designs in areas such as mold and tool fabrication and custom prototyping. This iterative method allows for changes and enhancements before proceeding to large-scale production.
Untitled-design-5-1-500x300
Unmanned Aerial Vehicle 
ANEBON specializes in CNC milling, which is a popular technology for manufacturing and fabricating parts for unmanned aerial vehicles (UAVs). CNC milling is the computer-controlled removal of material from a workpiece to produce a specific form. CNC milling is an important technique in the drone industry for making components such as frames, brackets, and propeller mounts out of materials including aluminum, carbon fiber, and plastic.

 
consumer-electronics-500x300
Electronic
ANEBON employs CNC milling processes to build precise printed circuit board (PCB) prototypes. This method involves precisely etching copper traces and cutting holes, allowing engineers to evaluate and refine their ideas before proceeding to large-scale production.

Furthermore, CNC milling offers a wide range of applications, including customizing unique casings, carefully constructing connectors, and creating front panels and displays that require precise engraving.
medical2-500x300
Medical
CNC turning is commonly used in the medical equipment business to create precise cylindrical components for a variety of medical devices, such as implants, surgical instruments, and prostheses.

The applications range from making microscopic pieces for gastrointestinal endoscopic equipment to creating specialized tools and fixtures for medical research and testing. Furthermore, CNC milling is important in the creation of surgical guides, which aid in the exact positioning of instruments during surgeries, improving precision and reducing invasiveness.
aerospace-turning-500x300
Aerospace
In the aerospace industry, ANEBON uses CNC milling to manufacture critical aircraft engine components such as turbine blades, combustion chambers, and compressor parts.This careful process ensures superior precision and durability.

Furthermore, CNC milling is critical in shaping structural elements such as wing spars, frames, and bulkheads in aircraft, ensuring their structural integrity and robustness.

FAQ

  • 3 What is 5-axis CNC machining?

    At ANEBON, we specialize in 5-axis CNC milling, a highly efficient technique employed to fabricate intricate components using our advanced computer-controlled machinery. This method allows our CNC machines to operate similarly to a skilled sculptor, using a cutting tool to shape materials from various angles and orientations. 
     
    To elaborate, the tool is capable of movement along three primary axes—vertical (up and down), horizontal (left and right), and depth (forward and backward)—designated as the X, Y, and Z axes, respectively. In addition, two supplementary rotational movements enable the tool to access a wider range of angles and surfaces on the material being processed. This combination of linear and rotational movements is what defines the "5-axis" classification.
     
    By leveraging these additional movements, our 5-axis CNC machines can manufacture complex geometries and intricate designs that are often challenging or impossible to achieve with traditional 3-axis machines, which are limited to movement solely along the X, Y, and Z directions without any rotation. This advanced capability not only enhances production efficiency but also guarantees superior precision, thereby facilitating the development of more sophisticated components within our manufacturing processes.

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

    CNC milling and CNC turning are distinct machining processes that differ in functionality, the machinery utilized, and the types of components they can produce.
     
    CNC milling involves the use of a rotating cutting tool that traverses across a workpiece to remove material from its surface. This process enables the creation of various geometries, including smooth and inclined surfaces, as well as grooves and slots.
     
    In contrast, CNC turning involves rotating the workpiece while the cutting tool remains stationary, shaping the material according to desired specifications. This technique is primarily employed for the production of cylindrical components and is particularly suitable for creating symmetrical parts, such as shafts, pins, and bushings.

  • 1 How does CNC milling work?

    CNC milling distinguishes itself from additive manufacturing techniques by employing computer numerical control (CNC) technology to remove excess material from a workpiece. The process begins with the use of a computer-aided design (CAD) file, which serves as a blueprint for creating a toolpath. A toolpath comprises a detailed set of instructions that govern the movement of cutting tools across the workpiece through various CNC operations. In contrast to additive manufacturing processes, which build material layer by layer, CNC milling is fundamentally a subtractive manufacturing method.
     
    By precisely controlling the movement of cutting tools, our CNC milling machines effectively sculpt and refine the workpiece to achieve the required dimensions and form while eliminating any unnecessary material. The CAD file functions as a critical reference, allowing our CNC machines to operate with the highest degree of accuracy. Guided by the toolpath, the cutting tools systematically traverse the workpiece, selectively removing material according to the defined specifications.
     
    This meticulous methodology ensures both accuracy and consistency, resulting in finely crafted components that adhere to the exact specifications detailed in the CAD file. Through the utilization of CNC milling, we consistently deliver superior outcomes, transforming raw materials into intricately shaped and precisely machined components that meet the specific requirements of our clients.
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