Drag in geometry, get a price in sixty seconds, pick a finish. We print it in nylon, resin, or metal, finish it by hand, measure it against your model, and put it on a truck before your prototype review. No sales call. No minimum order. No shop that promises Friday and delivers next month.
POST /quote bracket_v7.step
→ process SLS Nylon 12
→ tolerance ±0.1 mm
→ qty 40 $612.00
→ ships Thu 09:00Geometry from these floors ships through ours
The slow part of custom manufacturing was never the printer — it was the quoting, the email threads, the wait for someone to open your file. Additive collapses the whole loop into something you finish in one browser tab.
Drop a STEP, STL, or IGES and the viewer renders it in the browser. Thin walls, unsupported overhangs, and trapped volumes light up red before you commit a single dollar.
A quote lands in seconds — per part, by quantity, across every process the geometry can take. Swap the material and watch the number and the ship date move live.
Your job drops into a queued machine inside the hour, then moves to a finisher who supports, cures, sands, and dyes it by hand. Nothing ships straight off the build plate.
Every part is measured against your model and photographed before it boxes. You get the report, the tracking number, and the part — usually inside three days.
Measured on the floor. Not promised in a brochure.
Desktop printers do one material badly. We run a production floor of industrial machines and route your geometry to the one that actually fits it — tough, smooth, watertight, or load-bearing, your call, not ours.
Selective laser sintering builds tough, isotropic nylon with living hinges and captive assemblies baked in — no support scars, no orientation tax. The end-use workhorse.
Stereolithography holds 50-micron layers for housings, lenses, and dental-grade detail. It comes off the printer smooth enough to clear-coat without filling a thing.
DMLS in aluminium, titanium, and stainless prints brackets, manifolds, and fixtures dense enough to machine, tap, and torque into a real assembly.
Carbon- and glass-filled filament builds jigs, fixtures, and meter-scale parts engineered to survive a shop floor, not pose on a display shelf.
Vapour smoothing, bead blast, dye, and color-matched paint. The work that closes the gap between a printed part and one nobody can tell wasn't injection-molded.
Every part below started as a customer file and left as a finished good. Names are masked under NDA — the constraints, the process, and the turnaround are exactly as we ran them.
A camera-stabilizer shell with integrated cable channels and a snap-fit lid, printed support-free and bead-blasted matte black for a flight-hardware startup's first pilot batch.
Patient-specific guides held to 50-micron detail, cured and sterilization-validated, shipped with a per-part inspection report to a maxillofacial device team on a clinical timeline.
A motorsport plenum with internal runners no mold could ever pull, printed dense, heat-treated, then CNC-faced on the flanges for a leak-free seal at boost.
Locating fixtures that hold a PCB dead-flat under a placement head — printed overnight to replace a $9k machined set that was quoted six weeks out by the incumbent shop.
A pre-launch bridge run of left and right shells, vapour-smoothed and color-matched to a Pantone chip, keeping the product on shelves while the injection tool was still being cut.
One topology-optimized bracket, 40% lighter than the machined original, printed and stress-relieved as an AOG spare with full material traceability from powder lot to part.
“We revise the enclosure Monday, upload Monday night, and the new parts are on my bench Thursday. Additive took a full week out of every design loop. Our last product shipped a month early, and that week is the whole reason.”
“I sent the same titanium bracket to three vendors. Two quoted in nine days. Additive quoted in ninety seconds and shipped before the others replied — and the traceability paperwork was already in the box.”
“A machined fixture set was six weeks out and nine thousand dollars. We printed it overnight for a few hundred and the line never stopped. That's the entire pitch — the difference is they actually deliver it.”
No setup fees, no tooling charges, no monthly minimum. The quote you see is the price you pay — these tiers only decide how fast it leaves the floor.
The default for prototypes and short runs.
When the review is Thursday and it's already Monday.
For recurring builds and end-use parts at scale.
Yes. Every file is encrypted in transit and at rest, visible only to the operators assigned to your job, and never used to train a model or shown to anyone else. We sign a mutual NDA on request before you upload a single byte, and we purge your geometry on demand.
The viewer flags thin walls, unsupported overhangs, and trapped volumes the moment you upload, with the exact faces highlighted in red. For anything subtle, a manufacturing engineer reviews the geometry before we run it and emails you the fix. We'd rather hold a job a day than ship a part that fails.
Typical dimensional tolerance is ±0.1mm — tighter on resin and metal, looser on large FDM. Every part is measured against your model, and on Expedite and Production orders the inspection report ships in the box. If a critical dimension is out of spec, we reprint it free.
On Expedite, yes — it's a guarantee, not a hope. Your job jumps to the front of the queue, gets priority finishing, and ships within 72 hours of order confirmation or the rush fee comes back. Standard orders ship in five business days off the same floor.
Both, from the same upload. Minimum order is a single part, and that same file scales to ten thousand units on reserved capacity with volume pricing and full traceability. Plenty of customers prototype with us, then keep printing the end-use part here instead of cutting a mold.
No account to quote. No sales call to start. No minimum to print. Upload your geometry and see the number, the process options, and the ship date in under a minute.