Online 3D Printing Service

Get high-quality, custom 3D printed parts on demand. Upload your design to get an instant quote and move from digital model to physical part faster than ever.

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A collection of 3D printed consumer electronics prototypes

A Full Suite of Additive Manufacturing Technologies

Choosing the right technology is crucial for your project's success. We offer a range of industrial-grade processes to meet your needs for detail, strength, and material properties.

Stereolithography (SLA)

SLA is a vat photopolymerization process that uses a UV laser to selectively cure liquid resin into solid plastic. It is renowned for producing parts with exceptionally fine details, sharp features, and the smoothest surface finish of any 3D printing technology. This makes it a perfect choice for presentation models, form-and-fit prototypes, and master patterns for casting processes.

Key Benefit: Unmatched surface quality and feature detail.
Common Materials: Standard Resins (for general prototyping), Tough Resins (for functional parts requiring impact resistance), Clear Resins (for optical applications), Flexible Resins (for parts needing rubber-like qualities).
Ideal Applications: Visual prototypes, detailed miniatures, clear components like light pipes and lenses, custom-fit jigs and fixtures.

A highly polished clear lamp cover made with SLA 3D printing

Selective Laser Sintering (SLS)

SLS is a powder bed fusion technology that uses a high-power laser to sinter powdered polymer particles together. Because the unsintered powder supports the part during printing, SLS requires no dedicated support structures. This allows for the creation of highly complex internal geometries and interlocking parts. The resulting components are strong, durable, and suitable for functional testing and end-use applications.

Key Benefit: Strong, functional parts with design freedom.
Common Materials: Nylon PA 12 (excellent all-around mechanical properties), PA 11 (higher ductility and impact resistance), Glass-Filled Nylon (for increased stiffness and thermal resistance).
Ideal Applications: Functional prototypes, enclosures with snap-fits, living hinges, low-volume production parts, drone components.

A set of durable nylon gears produced with SLS 3D printing

Direct Metal Laser Sintering (DMLS)

DMLS, a form of metal 3D printing, builds parts directly from metal powder. A fiber laser melts and fuses layers of powder on a molecular level, creating fully dense metal components with properties comparable to wrought materials. DMLS enables the production of highly complex and optimized metal parts, such as conformal cooling channels or lightweight lattice structures, that are impossible to make with traditional machining.

Key Benefit: Production of strong, complex metal parts.
Common Materials: Stainless Steel 316L (corrosion resistant), Aluminum AlSi10Mg (lightweight), Titanium Ti64 (high strength-to-weight ratio).
Ideal Applications: Conformal cooling inserts for injection molds, lightweight aerospace brackets, custom medical implants, high-performance automotive components.

A complex metal heat sink for an automotive lamp, made with DMLS 3D printing

Frequently Asked Questions

What file formats do you accept?

We recommend uploading STEP (.step, .stp) files for the best results. We also accept STL, IGS, X_T, SLDPRT, and other common 3D CAD formats.

What is the typical lead time for 3D printed parts?

Lead times vary depending on the technology, part size, and quantity. However, parts can often be shipped in as little as 1-3 business days for standard processes like SLA and SLS.

How do I choose the right material?

Consider the application's requirements: Is it a visual model or a functional part? Does it need to be strong, flexible, or temperature resistant? Our material guides provide detailed properties, and our engineering team is available to help you select the perfect material for your project.

Can you 3D print large parts?

Yes, we have a range of machine sizes. The maximum build volume depends on the specific technology. For parts that exceed the build volume, we can expertly split the model, print the sections, and bond them together to create a final, large-scale assembly.