Best 3D Printing Service In China
  • 3D printed parts in as fast as 2 days
  • Various materials and surface treatments are available
  • Machining-CNC provides technical support and design guidance as well as improvement suggestions
  • ISO 9001:2015 Certified Factory
Our 3D Printing Services
Our online 3D printing service utilizes six distinct 3D printing technologies to transform your three-dimensional models into products composed of plastic, metal, and elastomeric materials. Our unparalleled ability to deliver components within a matter of days is facilitated by our fleet of twenty 3D printers. In addition to our extensive selection of materials, we offer a variety of post-processing techniques designed to enhance both the aesthetic quality and mechanical properties of the finished products.
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Stereolithography
Stereolithography (SLA) constitutes an additive manufacturing technology that employs an ultraviolet (UV) laser to polymerize liquid resin systematically, thereby fabricating three-dimensional objects in a layer-by-layer fashion.
 
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What’s 3D printing?
Three-dimensional (3D) printing is a sophisticated technology that enables the creation of tangible objects. Instead of utilizing ink on paper, this process employs specialized materials such as plastics or metals.
The process begins with the design phase, where an individual utilizes dedicated software to create a digital model or selects from an array of pre-existing designs available online. This design is subsequently transmitted to the 3D printer, which meticulously follows the supplied instructions to construct the object incrementally, layer by layer. This can be analogized to assembling a structure from building blocks, albeit executed with remarkable precision on a microscopic scale. Ultimately, a 3D printer integrates successive layers of material until the complete object is formed.
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Selective Laser Sintering
Selective Laser Sintering (SLS) is an advanced additive manufacturing technique that employs a laser to selectively fuse powdered materials, enabling the production of three-dimensional objects. This method commonly utilizes nylon or various polymeric materials, resulting in high-quality, durable components.
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Our 3D Printing Processes
ANEBON provides an extensive range of high-quality 3D printing services, including Fused Deposition Modeling (FDM), Stereolithography (SLA), and Selective Laser Sintering (SLS).

Our services are characterized by precision and customization, enabling the production of meticulously detailed 3D printed components at competitive costs, with a commitment to timely delivery from the prototyping phase to full-scale production. We specialize in the 3D printing of both plastic and metal materials, offering versatile solutions for both prototyping and production needs.
 
 
 
 
Gallery of 3D Printing
3D printing PLA2
3D printing PLA2
3D printing PLA
3D printing PLA
3D printing ABS3
3D printing ABS3
3D printing ABS2
3D printing ABS2
3D printing ABS1
3D printing ABS1
Advantages of 3D Printing in ANEBON
Versatility
Versatility
Three-dimensional (3D) printing is a multifaceted technology that empowers designers and engineers to materialize their concepts. This capability enables professionals in these fields to transform their designs into tangible objects, demonstrating the extensive applicability of 3D printing in innovation and production.
Faster production
Faster production
Three-dimensional (3D) printing facilitates rapid prototyping as well as the production of finished products. This technology effectively reduces lead times and expedites product development cycles.
Savings in time and money
Savings in time and money
Three-dimensional (3D) printing offers a cost-effective alternative to the expensive molds, tools, and setups that are typically required for conventional manufacturing processes. This technology enables the production of prototypes or small-scale manufacturing runs in significantly reduced timeframes and at a fraction of the costs associated with traditional manufacturing methods.
Customization and personalization
Customization and personalization
3D printing technology enables the customization and personalization of each item to address specific requirements and preferences effectively. This capability is particularly advantageous in sectors such as healthcare, where prosthetics and dental aligners can be tailored to accommodate the unique needs of individual patients.
Reduction of waste
Reduction of waste
Traditional manufacturing processes often generate substantial amounts of waste. In contrast, 3D printing utilizes only the necessary material required to fabricate the desired object. This approach significantly reduces waste and positions 3D printing as an environmentally sustainable alternative.
Supply chains are simplified
Supply chains are simplified
Three-dimensional (3D) printing facilitates the production of goods on demand, thereby eliminating the necessity for extensive inventories or intricate supply chains. This advancement can lead to enhanced efficiency in inventory management and a reduction in storage costs.
Materials For 3D Printing

Materials

  • PLA
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    PLA
    This material demonstrates exceptional rigidity, precise specifications, and competitive pricing. It is an environmentally friendly thermoplastic that possesses advantageous physical properties, along with both strength and flexibility. The material offers an accuracy of up to 0.15mm and features a subtle striped pattern.
  • ABS
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    ABS
    This plastic is readily accessible and exhibits favorable mechanical and thermal properties. It is a widely utilized thermoplastic due to its exceptional impact resistance and a relatively low level of complex features.
  • Nylon
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    Nylon
    This material exhibits significant resistance to impact, coupled with remarkable strength and durability. It possesses a high degree of hardness and exceptional dimensional stability, with a maximum heat resistance temperature ranging from 140 to 160 °C. Additionally, it is classified as a thermoplastic and demonstrates outstanding mechanical properties, accompanied by high resistance to chemicals and abrasion. Notably, it features a fine powder finish.
  • Aluminum Alloy
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    Aluminum Alloy
    Aluminum alloys have demonstrated significant potential for application in 3D printing processes. Various techniques exist for 3D printing with aluminum alloys, including selective laser melting (SLM) and direct metal laser sintering (DMLS). These methods involve the fusion of powdered aluminum alloy, which is subsequently layered to construct three-dimensional objects. Additionally, aluminum alloys exhibit several advantageous properties that make them particularly well-suited for 3D printing applications. These properties include an excellent strength-to-weight ratio, remarkable thermal conductivity, resistance to corrosion, and acceptable machinability.
  • Stainless Steel
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    Stainless Steel
    Stainless steel is extensively utilized in the field of 3D printing due to its exceptional properties. It demonstrates significant strength, as well as remarkable resistance to both corrosion and heat, making it suitable for demanding applications. The outstanding strength-to-weight ratio, coupled with its capability to endure extreme temperatures and corrosive environments, positions stainless steel as an ideal material for industrial use.
Surface Finishing For 3D Printing
Name Description Materials Color Texture
3D-printed parts are sand-blasted to remove the remaining powder. The surface finish is similar to the granular/crystalline structure of a sugar cube. All materials N/A Matte

 		 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 Steel, Stainless steel, Aluminum, ABS Matte
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. Stainless Steel, Steel, Aluminum Black, any RAL code or Pantone number Semi-glossy
or glossy

 		 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
 

 		 You can choose from different custom finishes depending on your materials and end-use. All materials N/A N/A
See What Our Customers Say About Us
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Why Choose Us for 3D Printing?
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Rapid Estimate
Please forward your CAD file along with detailed specifications to our email address, and you will receive a prompt quotation for 3D-printed components within a maximum of 12 hours. Utilizing our advanced production techniques, we are confident in our ability to provide the most economically advantageous pricing for your 3D printing project.
Quick Lead Time
The timeframe for completion is influenced by several factors, including the overall dimensions and complexity of the design, as well as your chosen 3D printing method. However, ANEBON takes pride in its capacity to deliver results efficiently, with lead times as brief as 4 days.
Superior Quality
To ensure that our 3D prints meet the specific requirements of your application, we provide RoHS material certifications along with comprehensive dimensional inspection reports for each order placed. These reports are available upon request, assuring the high quality and appropriateness of our 3D prints.
Industry Applications
At ANEBON we manufacture components for customers across a wide range of industries.
We offer 3D-printing services for:
Aircraft/Aerospace
Electronic Product
Electronic Product
Mining/Army/Optics
Fastener Manufacturing
Semiconductor Manufacturing
Computer Technology
Marine Vehicles and Equipment
Testing Equipment
Sports Equipment and Technology
Food and Beverage Industry
Food and Beverage Industry

FAQ’S

  • 1 What are your tolerances for 3D printing?

    Analogous to CNC machining, the outstanding accuracy inherent in 3D printing can be realized through Anebon. Our standard tolerance for 3D printing typically ranges from 0.1mm to 0.2mm; however, the complexity of your design may impact these tolerances. We invite you to upload your 2D design files for our evaluation, and we will determine the specific tolerances necessary for your project.

  • 2 What's the maximum size of the 3D prints?

    The printing capabilities of our diverse range of 3D printers will ultimately dictate the dimensions of your project. Machining-CNC offers an extensive selection of 3D printing machines, each designed to accommodate varying sizes. For example, our large-format Fused Deposition Modeling (FDM) 3D printers feature a notable build area of up to 36 x 24 x 26 inches. Furthermore, our larger Stereolithography (SLA) printers can produce objects with dimensions reaching 29 x 25 x 21 inches.

  • 3 Which file formats are compatible with ANEBON requirements?

    If your file is in an alternative format, it is recommended that you convert it to either STEP (.stp) or STL (.st) format, as these formats are considered the most appropriate for your needs.
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