On-demand 5-axis CNC
Machining Services
  • Tolerances down to ±0.0002″ (0.005mm)
  • Lead times from 5 business days
  • 28+ surface finishes, 75+ metals & plastics
  • ISO 9001:2015 Certified Factory

Our 5-Axis CNC Machining Services

 At Anebon, we have state-of-the-art equipment, cutting-edge software, and skilled staff to provide complete 5-sided machining solutions for metal and plastic parts. With our expertise in major CAD/CAM formats, we can seamlessly integrate your design into our machining process. Our multi-axis CNC machining technology allows us to produce parts in complex geometries that other methods cannot. With tolerances within ±0.0005”, you can trust that our products will meet your specifications. We handle projects of all sizes and stay up-to-date with machining technologies to meet your evolving needs. Trust Anebon for exceptional results and reliable service.

Gallery of 5 Axis CNC Machining

Why Choose Anebon 5-axis CNC machining parts?

There are several unique advantages to choosing Anebon for 5-axis machining. Here are some reasons to consider:


Wide range of materials:

Anebon has expertise in working with various materials, including metals like aluminum, stainless steel, titanium, and more. This versatility allows for the production of components for diverse industries and applications.

Customization options:

Anebon understands that each client may have unique requirements. They offer customization options to cater to specific project needs, ensuring that the final output meets or exceeds expectations.

Collaborative partnership:

Anebon works closely with clients throughout the entire manufacturing process, from initial design concepts to final production. Their responsive and collaborative approach ensures effective communication and customer satisfaction.

Efficient and cost-effective:

5-axis machining offers increased efficiency and productivity by reducing setup time, minimizing the number of required machine operations, and achieving complex geometries in one setup. This results in faster turnaround times and cost savings for clients.

Advanced technology:

Anebon utilizes state-of-the-art 5-axis machining technology, allowing for greater precision, complexity, and versatility in manufacturing a wide range of parts and components.High-quality craftsmanship: Anebon maintains a commitment to exceptional quality and precision in every project. With skilled technicians and strict quality control measures, you can trust that your components will be manufactured to the highest standards.

Timely delivery:

Anebon recognizes the importance of meeting project deadlines. With efficient production processes and attention to detail, they strive to deliver components on time, helping clients adhere to their project timelines. Overall, Anebon's 5-axis machining capabilities, commitment to quality, efficiency, and customer satisfaction make them an excellent choice for your manufacturing needs.
Critical Benefits of 5-Axis Machining

5-axis offers many advantages over other manufacturing methods such as 3-axis machining or 3D printing, such as:

Greater part design flexibility
The process's additional axes of motion facilitate the production of more complex and intricate parts. Some manufacturing processes with fewer axes may require more tooling or equipment adjustments to produce the same parts, while others cannot remanufacture them.
Reduce labor costs
Since fewer adjustments are needed during 5-axis machining operations, little operator involvement is required, reducing labor costs per part. Better surface finish. The 5-axis machine moves more smoothly and with less vibration, resulting in a better surface finish.
Delivery times are faster
5-axis machines can produce parts faster than 3- or 4-axis machines, reducing lead times.
Reduce labor costs
Since fewer adjustments are needed during 5-axis machining operations, little operator involvement is required, reducing labor costs per part. Better surface finish. The 5-axis machine moves more smoothly and with less vibration, resulting in a better surface finish.
3+2 machining
which involves holding the workpiece in a rotating configuration, offers many of the same advantages for simpler parts.
Additional advantages of both processes include:
  • Effective use of floor space
  • Excellent anti-collision ability
  • Integrated drilling function
  • Simple machine setup
  • Reduce tool wear and extend the working life
  • 5-sided machining for all industries and applications
What materials are used?

In general, CNC machining processes can handle a wide variety of materials with ease. 5-axis machining processes are no exception. Some typical materials used in 5-axis machining operations include:


Aluminum alloys have a high strength-to-weight ratios, high electrical and thermal conductivity, low density, and natural resistance to corrosion. They can be anodized using a variety of techniques.
Stainless steel
The stainless steel alloys are characterized by their excellent strength, ductility, corrosion and wear resistance. They can be easily joined and machined as well as polished.
Alloy Steel
Alloy steels incorporate additional alloying elements aside from carbon, leading to enhanced qualities such as increased hardness, toughness, fatigue resistance, and wear resistance.
Brass displays outstanding easiness to machine, favorable ratio of strength to weight, resistance to corrosion, and proficient conduction of electricity and heat.
Copper, a remarkably malleable metal, finds utility in various applications determined by its mechanical characteristics. It exhibits commendable durability, hardness, exceptional thermal and heat conduction abilities, and corrosion resistance. As a result, it has become a highly sought-after material highly regarded for both its practical functionality and its aesthetic appeal. Furthermore, copper possesses the versatility to be alloyed, thereby enhancing its mechanical attributes.
Titanium possesses a variety of material characteristics that designate it as the optimal metal for challenging applications. These traits encompass exceptional resilience against corrosion, chemicals, and extreme temperatures, as well as an exceptional ratio of strength to weight.


ABS, a frequently used thermoplastic, displays favorable mechanical characteristics, outstanding impact resilience, reliable heat tolerance, and commendable machinability.
FR4, boasting excellent mechanical strength, superior electrical insulation, and superior machinability, is the ideal choice for electronic applications.
HDPE exhibits outstanding resilience to impact, remarkable strength, and impressive machinability, making it well-suited for the production of resilient and sturdy machine components.
PE is characterized by its remarkable impact resistance, exceptional ductility, and minimal friction, which render it an ideal choice for fabricating wear-resistant parts using machining techniques.
PA6 (Nylon)
In machining applications where parts undergo significant mechanical stress, PA6 proves to be an excellent choice due to its combination of high strength, wear resistance, and elasticity. When it comes to machining components that experience substantial mechanical stress, PA6 stands out as an exceptional material option due to its impressive strength, resistance to wear, and elasticity.
PA66 displays favorable characteristics like high rigidity, hardness, wear resistance, and thermal dimensional stability. Furthermore, it showcases exceptional wear resistance, low friction, and excellent temperature, chemical, and impact resistance. Nevertheless, caution must be exercised during the processing of PA66 due to its propensity to absorb moisture, which can impact its dimensional stability.
PC, a thermoplastic material, possesses remarkable resilience, exceptional resistance to impacts, and ease of machining. Additionally, it has the capability to exhibit optical transparency.
PEEK is characterized by its impressive strength, outstanding ability to withstand high temperatures, and excellent machinability — making it an ideal choice for various high-performance applications. PEEK offers exceptional strength, remarkable thermal resistance, and superior machinability, making it perfectly suited for demanding high-performance uses.
PMMA provides remarkable light transmission, impressive mechanical strength, and impeccable machinability, making it a perfect material for optical and aesthetic applications. PMMA exhibits exceptional light transmission, superior strength, and excellent machinability, making it an ideal choice for optical and aesthetic purposes.
POM (Delrin/Acetal)
Precision parts that seek elevated rigidity, minimal friction, and outstanding dimensional stability benefit from the usage of POM, an engineering thermoplastic.
With exceptional fatigue resistance, excellent chemical resistance, and impressive elasticity, PP is perfectly suited for fabricating machined parts that are lightweight and flexible.
PPS exhibits superb resistance to chemicals, possesses remarkable strength, and demonstrates exceptional machinability; making it an optimal choice for the production of high-performance components.
Among plastics, PVC stands as the third most widely employed, boasting well-balanced mechanical characteristics, outstanding resistance to chemicals and weather conditions, and notable toughness.

At Anebon we manufacture components for customers across a wide range of industries.
We offer 5-axis machining services for:

Industry Application

As an ISO9001:2015 certified company, we uphold the highest standards of quality management, ensuring that our precision-engineered parts and products contribute to a healthier and happier future for all.

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The durability and precision that our precison manufacturing services provide meets the sophisticated needs the different phases of the aerospace industry required.

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Industry Application

CNC machining has become a game-changer in automotive manufacturing, revolutionizing the production of critical components with unmatched precision and efficiency. Leveraging Computer Numerical Control (CNC) technology, a wide range of automotive parts can be manufactured to exacting standards, elevating performance and reliability.

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Industry Application

In the dynamic landscape of industrial machinery, Anebon emerges as a distinctive and influential player, contributing significantly to the evolution and optimization of manufacturing processes. Anebon's journey through the realm of precision engineering and cutting-edge solutions has established it as a formidable force in the industrial machinery sector.

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Industry Application

While CNC machining is not typically used to directly fabricate electronic components like integrated circuits or microchips, it can be utilized to produce various mechanical and structural parts that are essential for electronic devices and systems.

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Industry Application

With a commitment to innovation and excellence, Anebon stands as a beacon of progress, actively shaping the future of Robotics & Automation through cutting-edge solutions and CNC machining expertise.

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