Rapid Quotes
Send us your files and get a quote back in hours, not days, so hardware decisions do not wait on a supplier.
Additive manufacturing gives electronics teams faster development, more design flexibility, and lower production cost. Without molds or machining, it builds lightweight, complex, accurate components, and with no minimum order it fits rapid prototyping, low-volume production, and functional enclosures where time-to-market matters.
Components, Enclosures & Prototyping
Additive manufacturing is changing how electronic hardware gets developed. It builds lightweight, complex, accurate components without tooling, and because there is no minimum order, it fits rapid prototyping, low-volume production, functional enclosures, and advanced assemblies where precision and time-to-market both matter.
Our capabilities span DMLS for metal components, FDM for durable fixtures and large prototypes, SLA for high-resolution detail, and PolyJet for multi-material assemblies, with in-house finishing and redundant equipment.

Quotes in hours, delivery in days. Here is what that looks like for electronics prototyping and low-volume production.
Send us your files and get a quote back in hours, not days, so hardware decisions do not wait on a supplier.
We scope each part against real machine capacity and commit to dates your product plan can rely on.
Skipping tooling moves you from approved design to functional parts far quicker than molding or machining.
Metal and polymer additive, finishing, and redundant equipment under one roof means the right process per part.
From enclosures and connector housings to shielding and test fixtures, additive manufacturing supports a wide range of electronics work.

We pair advanced additive processes with tool-less sheet metal forming to support both prototyping and low-volume production, which lowers cost and adds flexibility for complex assemblies. Our work in Digital Sheet Metal Forming and metal 3D printing is backed by ITAR registration, aerospace-level quality standards, and in-house finishing, so electronic components meet the demands of industries where precision and reliability are critical.
Yes. It is widely used for enclosures, test fixtures, housings, and structural supports in electronic systems. Teams rely on it to prototype quickly and produce low-volume parts without tooling, which keeps hardware development moving alongside the circuit design.
Yes. SLA and PolyJet produce highly detailed, accurate parts well suited to electronics work, including fine features, thin walls, and multi-material assemblies. For metal parts, DMLS holds tight tolerances on brackets, mounts, and shielding components.
It spans consumer devices and industrial controls through to aerospace avionics and medical electronics. Common parts include connector housings, PCB fixtures, thermal management components, RF and EMI shielding, and enclosures for both prototypes and finished products.
It speeds product development, removes tooling cost, and gives designers freedom to build complex, high-precision parts. Because designs can change between builds without new molds, teams can iterate an enclosure or fixture quickly and move from prototype to low-volume production on a predictable timeline.
Looking for a partner who can deliver high-precision parts on accelerated timelines? Send us your files and we will scope the right process, recommend a material, and get you a quote.