Offers Resin, Nylon and Metal 3D Printing Services

Direct metal laser sintering, where metal powders are welded into fully dense metal parts. Common materials include stainless steel, aluminium alloys and titanium alloys. Feel free to contact us to find a engineer to support you according to your needs.

Stereolithography (SLA) uses an ultraviolet laser to draw thousands of thin layers on the surface of a liquid thermosetting resin until the final part is formed. The high forming accuracy and smooth surface of the part make it ideal for product appearance verification.

Selective laser sintering (SLS) uses a CO2 laser to melt nylon-based powder layer by layer until the final thermoplastic part is built. 3D printed parts are hard and can withstand temperatures of 170 to 180 degrees, making them suitable for product functional verification and some parts can be used directly.

1.  Low cost: Because 3D printing uses only the required materials and no tools, it is one of the lowest-cost manufacturing processes for one-off parts or small batch production.
   
   
2. Complex geometry: 3D printers use computer-controlled nozzles to create parts layer by layer, they can be used to create highly complex shapes, including complex internal geometries, with increased complexity but no added cost.
   
   
3. Highly efficient: Once a part has been designed using 3D modeling software, it can be printed in a matter of hours, without the lengthy process required by traditional methods. Parts can often be shipped in as little as 1 day, allowing for faster design iterations and faster time to market.
   
   
4. Error correctability: Once a 3D printed part is complete if a problem is found with the product it can be corrected directly digitally, without the need for expensive mould replacement.
   
   
5. Resource-saving: 3D printing is an additive process with no or little material waste, whereas a subtractive process like machining wastes a lot of material.
   
   
6. High precision: 3D printing allows for precise part details and features.
   
   
7. Unlimited design space: Traditional manufacturing techniques and products made by artisans are limited in shape and the ability to produce shapes depends on the tools used, 3D printers can break through these limitations and open up huge design space.

3D printing (3DP), also known as additive manufacturing, is a technology that uses a digital model file as the basis for constructing an object by printing layer by layer using an adhesive material such as powdered metal or plastic.

3D printing is usually achieved using digital technology material printers. It is often used to make models in areas such as mold making and industrial design, and then gradually for the direct manufacture of some products, and parts have been printed using this technology. The technology is used in jewelry, footwear, industrial design, architecture, engineering and construction (AEC), automotive, aerospace, dental and medical industries, education, geographic information systems, civil engineering, firearms, and other areas.

Many different techniques exist for 3D printing. They differ mainly in the materials that can be printed. Common materials used for 3D printing are nylon glass fiber, durable nylon materials, gypsum materials, aluminum materials, titanium, stainless steel, silver plating, gold plating, and rubber-based materials.