From CAD File to Functional Prototype —
Without the 6-Week Wait.
Advanc3D is the additive manufacturing partner for medical device teams that need design iteration at the speed of a startup. Design collaboration, short-run production, material flexibility, and accelerated iteration — from first concept to production-intent part.
NDA-ready · US-based · HP MJF, SLA, FDM & TPU in-house
Hero Product Photo
THE BOTTLENECK
Most Contract Manufacturers Are Built for Volume.
Your Prototype Isn’t.
Early-stage medical device development doesn’t follow a linear path — it cycles. You validate a concept, find a flaw, redesign overnight, and need the next iteration in your hands before your investor meeting or IRB submission. Standard contract manufacturers quote in weeks, require production-level drawings, and charge tooling fees before they’ve touched your file. That’s not a manufacturing partner. That’s a delay.
Long quoting processes
that assume finalized engineering drawings
MOQ requirements
forcing 500-unit orders when you need 5 to validate
Material limitations
that compromise mechanical properties during testing
No design feedback
vendors who print what you sent, even when a wall change would prevent failure
WHY US
Built for Iteration. Priced for Early Stage. Ready for Production.
We Review the Part, Not Just the File.
Our team flags DFM issues, tolerance risks, and material mismatches before we start the machine. You get feedback that makes the next version better — not just a print of what you submitted.
The Right Material for What the Part Has to Do.
HP MJF nylon for structural load. TPU at calibrated shore hardness for soft interfaces. SLA resin for fine-detail validation. Biocompatible-grade materials for patient-contact applications.
One Prototype or Fifty Pilot Units — Same Workflow.
No minimum order. No gated quote process. When you’re ready to scale, we scale with you.
HOW IT WORKS
Four Steps From Concept to Production-Intent Part
Process Step 1 — Upload UI
Upload Files or a Design Brief
STL, STEP, or a plain description of what the part needs to do. We meet teams where their design actually is.
Process Step 2 — Team Review
Review and Response Within 24 Hours
DFM feedback, material recommendation, lead time, and quote. No black-box pricing.
Process Step 3 — Machine Running
Approve and We Build
Production runs in 3–7 business days. Progress updates provided — not silence.
Process Step 4 — Finished Part
Parts Arrive Ready for Testing
Post-processed, finished, and documented. Ready for bench testing, clinical validation, or investor demonstration.
MATERIALS
Material Matched to Function — Not to What’s Loaded in the Machine.
MJF Nylon — Surface Macro
HP MJF Nylon (PA12)
Structural components, housings
High tensile strength, isotropicTPU — Calibrated Shore Hardness
TPU
Soft interfaces, gaskets, liners
Shore A 85–95, flexibleSLA Resin — Fine-Detail Model
SLA Resin
Fine-detail validation models
High resolution, smooth surfaceBiocompatible Resin Sample
Biocompatible Resin
Patient-contact applications
ISO 10993 compatibleYour Next Iteration Shouldn’t Take 6 Weeks.
Tell us what you’re building. We’ll tell you what’s possible — and when we can have it in your hands.
Book a Discovery Call
Upload Project Files
Drag files here or click to browse
STL · STEP · PDF · ZIP accepted
CTA — Wearable Device on Desk
US-based · HP MJF + SLA + FDM + TPU · NDA-ready · Short-run & pilot production · Biocompatible materials available