Offers Resin, Nylon and Metal 3D Printing Services

  • 11 years of experience in the industry
  • High forming accuracy
  • SLA, SLS, SLM processes
  • Global delivery in as little as 2 days!

We Are The Experts In Additive Manufacturing!

Siedery offers industrial-grade 3D printing (additive manufacturing) services including SLS, SLA, and SLM processes. We offer 3D printing of plastics and metals for prototyping and production. With us, you can find the full range of materials and processes for your product application.

3D printing is a great method for product appearance, functional verification, or small series production, and it can print complex geometries that cannot be achieved by traditional manufacturing processes.

Metal 3D Printing

Metal 3D Printing

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.

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Photosensitive resin 3D printing

Photosensitive resin 3D Printing

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.

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Nylon 3D printing 2022

Nylon 3D Printing

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.

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Applications of 3D Printing

Product Concept Model

3D printing is fast and feature-rich, allowing product developers to easily iterate through the development process and can quickly validate a product's concept design.

Rapid Prototyping

3D printing can be used to create fully functional prototypes of products and can even produce models that function very closely to the finalized product.

Direct Digital Manufacturing

Because of the high accuracy of 3D printing, small trial runs of products can be made directly by 3D printing before mass production.

Advantages of 3D Printing

Advantages of 3D Printing
  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.

 

What is 3D Printing?

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.

what is 3d printing

Why Choose Siedery for Custom 3D Printing?

We have an experienced engineering team that has helped thousands of customers bring their products to market with high quality 3D printed parts. We can 3D print parts for a wide range of part applications and industries using a range of industrial grade thermoset resins, as well as thermoplastics and metal powders, and if required, we can provide a variety of post-treatment services such as heat treatment, secondary machining, plating, painting and dyeing to further enhance mechanical properties and appearance.

Services worldwide

50+

More than 50 countries served
3D printing equipment

800+

Over 800 3D printing machines.
3D printing factory scene

40000㎡

Over 40,000 square metres of manufacturing space.
3D printing services for users

200000+

Over 200,000 users have been served
Daily Active Users

150000+

Over 150,000 active users per day.
3D printed parts per year

20000000+

Over 20,000,000 parts are manufactured each year.

Ready To Start Customizing your 3D Printed Parts?

Ships in as little as 2 days!
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3D Printing FAQs

How much does 3D printing cost?

The cost of 3D printing each part depends on a variety of factors including design, materials, process and post-processing. Typically, the post-processing process accounts for the vast majority of the cost of manufacturing the part, as there is a cost of labour involved. Therefore, if it is just printed, the cost is very low.

How do I choose a 3D printing technology?

When selecting 3D printing technology, we must first review the key design requirements, such as strength, cosmetics and durability. And those consideration can usually help you determine which technology and material is appropriate in your products.

What are the advantages of 3D printing?

One of the biggest advantages of 3D printing is the speed at which parts can be produced. Other advantages include flexible design, cost savings and the fact that the cost of the part does not rise as the complexity of the part increases.

How big of a part can be 3D printed?

The maximum size of the part depends on the forming platform of the 3D printing machine being used. With the development of larger printers, metal parts can be built as large as 31.5" x 15.7" x 19.7" and plastic parts can be as large as 29" x 25" x 21".

What type of file format is needed for 3D printing?

Although many file formats can be used for 3D printing, the recommended file types for uploading are STL (. STL), step (. STP /. Step), SolidWorks (. Sldprt), and IGES (. IGS /. IGES) files.

What is 3D printing used for?

3D printing has always been used as a rapid prototyping method in history. With the progress of post-processing technology and materials, 3D printing is often used in the production of end-use parts. 3D printing technology is widely used in jewelry, industrial design, architecture, automobile, aerospace, dental and medical industry, education and other fields.
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Founded in 2011, Siedery provides a one-stop shop for additive manufacturing and small-batch manufacturing services for small and medium-sized enterprises worldwide. We are experts in the CNC machining, injection molding, and 3D printing industries.

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Building A3, Fuhai Information Port, Shenzhen, Guangdong, China
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