ONLINE 3D PRINTING SERVICES

Through our experienced 3D printing services, you can easily purchase high-quality 3D printed prototypes and production parts, which is the quickest way to access online 3D printing services. The services we provide have obtained ISO 9001 certification.
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3D PRINTED PRODUCTS

3D PRINTING CUSTOM SERVICES

3D printing technology is an additive manufacturing process that builds three-dimensional objects by adding materials layer by layer. Different 3D printing techniques are suitable for different application scenarios and materials. Here are some common 3D printing methods and their characteristics:
 
FDM

FDM

Uses thermoplastic material, heated to a molten state, extruded through a nozzle and built up layer by layer to form an object. Lower cost, easy to handle, suitable for home and small business use
SLA

SLA

Uses a liquid photosensitive resin that is cured layer by layer under the action of a UV laser. High resolution and surface finish can be achieved, suitable for fine models and prototypes.
 
SLS

SLS

Uses powder materials (e.g., nylon, polycarbonate, etc.) that are sintered layer by layer by laser. Supports a wide range of materials and can print complex structures without the need for support structures
 
MJF

SLM

This is a 3D printing technology developed by HP. It is mainly used for industrial-grade 3D printing, especially when mass production of high-performance parts is required
 

OUR SOLUTIUNS AND ADVANTAGES

Flexibility and Adaptability

Our 3D printing services can be tailored to meet the specific needs of our customers, whether it is for small batch or single part production, and can be machined to the design drawings or specifications provided by the customer. This flexibility is particularly suited to the early stages of product development, prototyping or the production of special parts without the need for significant investment in moulds or traditional manufacturing tools.

High Precision and Quality

or full-scale production of parts, we can complete the 3D printing process at high speed and quality, while maintaining a tolerance of ± 0.2 millimeters. Please trust our professional and reliable 3D printing service team, who will provide you with high-resolution parts that meet your accurate specifications. By adopting advanced technologies such as FDM, SLA, SLS, and SLM, we can ensure optimal performance.
 

3D PRINTING MATERIALS

Metals

  • Aluminium
     
    Aluminum alloy, with low density, good conductivity and corrosion resistance, is widely used in aerospace, construction, transportation and other fields.
    Aluminum 6061, 6061-T6
    Aluminum 2024
    Aluminum 5052
    Aluminum 5083
    Aluminum 6063

     
  • Copper
     
    Excellent electrical and thermal conductivity, commonly used in wires and cables, radiators, etc.
    Copper C101(T2)
    Copper C103(T1)
    Copper C103(TU2)
    Copper C110(TU0)
     
  • Stainless Steel
     
    Excellent corrosion resistance, widely used in food, pharmaceutical and chemical industries.
    Stainless Steel SUS201
    Stainless Steel SUS303
    Stainless Steel SUS 304
    Stainless Steel SUS316
    Stainless Steel SUS316L
    Stainless Steel SUS420
    Stainless Steel SUS430
    Stainless Steel SUS431
     

Plastics

  • ABS
     
    A tough thermoplastic with excellent impact strength and chemical resistance, suitable for applications that require higher strength and durability.
  • PA
     
    With excellent wear resistance and strength, it is suitable for making gears, hinges, and other components that require mechanical properties.
  • PLA
    A biodegradable thermoplastic with renewable sources, easy to print, does not require a heating bed, and is suitable for beginners and educational purposes.
  • TPU
     
    an elastic material that provides rubber like properties and is suitable for making flexible or elastically deformable components.
  • PET
     
    High transparency, good chemical resistance, not easily brittle, suitable for making containers and packaging materials.

SURFACE TREATMENT OF 3D PRINTED PARTS

The surface treatment of 3D printed parts is to improve their appearance, increase accuracy, enhance mechanical properties, or optimize their functionality. Choosing the right surface treatment method often depends on the material, design requirements and end use of the 3D printed part. For example, for metal prints, heat treatment and electroplating may be necessary, while for plastic prints, sanding and painting are more common. The following are some commonly used 3D printing surface treatment methods:
​​​​​​​
  • Grinding and polishing
  • Sandblasting
  • Heat treatment
  • Electroplating
  • Spray painting
  • Laser engraving or marking

TOLERANCE STANDARDS FOR DIFFERENT FUNCTIONS OF 3D PRINTING

We follow the ISO 2768 standard for CNC machining.

FDM

Maximum construction size: 500 x 500 x 500 mm
Dimensional tolerance: between ± 0.2% or ± 0.2mm and ± 0.5mm
Layer height: 100-300 μm
Density: 20-80%

SLA

Maximum structure size: 145 × 145 × 175 mm
Dimensional tolerance: ± 0.1% or ± 0.1mm
Layer height:50-100 μm
Minimum size: 0.2mm

SLS

Maximum structure size:395 x 500 x 395 mm
Dimensional tolerance: :±0.3% or ±0.3mm
Layer thickness: 100 μm
Minimum size:0.5mm

MJF

Maximum structure size:320x320x400mm
Dimensional tolerance: ± 0.1mm
Layer height:30 – 50μm
Thickness: 0.8mm

WORKING PRINCIPLE, ADVANTAGES AND APPLICATIONS

1. What is 3D printing?

3D printing, also known as additive manufacturing, is a manufacturing technology that converts digital models into solid three-dimensional objects. This process constructs objects by adding materials layer by layer, in sharp contrast to the subtractive manufacturing commonly used in traditional manufacturing such as cutting and milling.

2. Overview and Advantages of 3D Printing Services:

  3D printing is based on digital models, which are typically created by computer-aided design (CAD) software. Once the model is ready, it will be "sliced" into a series of very thin cross-sections, each layer representing a subtle part of the object. Subsequently, the 3D printer reads these slice data and stacks the materials layer by layer in the specified order until the entire object is constructed.

High design freedom

3D printing can easily create objects with almost any complex geometric shape, which may be difficult or costly to achieve in traditional manufacturing methods. This means that designers can explore innovative designs more freely without worrying too much about manufacturing limitations.

Customized production

3D printing is very suitable for small batch or single piece production, especially for personalized customized products, such as prosthetics, orthodontic appliances or surgical instruments in the medical field, as well as personalized accessories and gifts.
 

Reduce costs

For complex shaped objects, the cost of 3D printing may be lower than traditional manufacturing methods. This is because 3D printing typically only uses the amount of material required to construct objects, reducing material waste and thus lowering costs.
 

Rapid prototyping

3D printing can quickly transform designs into physical prototypes, greatly accelerating the product development cycle. Designers can test and iterate designs in a short amount of time without having to wait for long traditional manufacturing processes.
 

3. Application

The application of 3D printing is extremely broad, covering many industries, such as:
Automobiles 3D Printing

Automobiles

Prototype Design and Small Batch Production of Specific Components
 
Aerospace 3D Printing

Aerospace

Manufacturing lightweight and structurally complex components
 
Architecture 3D Printing

Architecture

Large scale structural components and houses
 
 
Medical3D Printing

Medical

Customized prosthetics, surgical guides, orthodontic appliances, and biological tissues
 
Education 3D Printing

Education

Teaching Tools and Models
 
 
Art 3D Printing

Art

Sculpture and Personalized Artworks
 
 

COMMON ISSUES WITH 3D PRINTING SERVICES

  • Q How can I protect my design from being stolen?

    A
    Choose a reputable service provider and sign a non-disclosure Agreement (NDA). In addition, only the necessary design information can be provided and a watermark or mark can be added to the file.
     

  • Q Is post-processing required after 3D printing?

    A
    The vast majority of 3D printed parts require a certain degree of post-processing, including removing support structures, polishing, dyeing, coating, etc., to improve appearance and functionality.
     

  • Q How long is the delivery time for 3D printing?

    A The delivery time depends on the size and complexity of the model, as well as the production load of the service provider. Simple small models may only take a few days, while large or complex projects may take weeks.

  • Q What are the common problems in 3D printing?

    A Common problems include model sticking to the platform, model misalignment, wire drawing, model edge warping, top holes, etc. These problems can be solved by adjusting printing parameters, using appropriate support structures, and substrate materials.

  • Q How to choose the suitable 3D printing materials for my project?

    A When selecting materials, one should consider the functional requirements, cost budget, appearance requirements, and whether special chemical or physical properties are needed for the project. Consulting a 3D printing service provider can help you make the best choice.

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