From concept models to end‑use production parts — we deploy the full spectrum of additive manufacturing technologies to deliver precision, repeatability, and speed.
We match the process to your part requirements — not the other way around.
Fused Deposition Modeling for durable thermoplastics. Ideal for large functional prototypes, jigs, fixtures, and low‑volume production.
Stereolithography for ultra‑fine detail and smooth surfaces. Perfect for visual models, dental/medical devices, and investment casting patterns.
Selective Laser Sintering for strong nylon parts without supports. Great for complex geometries, functional assemblies, and on‑demand manufacturing.
Multi Jet Fusion for production‑grade nylon with isotropic strength. Consistent mechanical properties for functional testing and end‑use parts.
Direct Metal Laser Sintering for titanium, aluminum, and stainless steel parts. Aerospace‑grade quality, complex internal channels, lightweight structures.
Digital Light Processing — similar to SLA but faster, using a projector to cure entire layers at once. Great for high‑detail batch production.
From standard thermoplastics to exotic alloys — all with full traceability and certification.
Need a custom material? Talk to our engineers.
A streamlined workflow from digital file to physical part — optimized for quality and speed.
Upload STL, STEP, OBJ, or native CAD files. Our AI‑powered analysis checks for printability issues and suggests geometry optimizations.
Choose from 50+ materials across six technologies. Our engineers can recommend the best option based on strength, temperature, and finish requirements.
Your parts are printed on calibrated industrial machines with in‑process monitoring. Closed‑loop feedback ensures dimensional accuracy and repeatability.
We remove supports, sand, polish, dye, or paint as specified. Every part undergoes a final dimensional inspection before shipping with a certificate of conformance.
Lightweight brackets, ducting, UAV components, and engine prototypes in titanium and high‑temp polymers.
Surgical guides, anatomical models, custom implants, and dental aligners — ISO 13485 compliant.
Functional intake manifolds, custom brackets, jigs, and fixtures for production lines. Heat‑resistant materials available.
End‑effectors, sensor mounts, lightweight structural parts, and gripper prototypes in nylon and carbon fiber.
Wearable device housings, button prototypes, and snap‑fit enclosures with smooth finishes.
Scaled presentation models, topographic maps, and interior design elements with precise detail.
Custom jigs, fixtures, gauges, and ergonomic tools that improve assembly line efficiency.
Lab equipment, prototypes for academic projects, and research apparatus — budget‑friendly and fast.
| Technology | Best For | Precision | Lead Time | Material Options |
|---|---|---|---|---|
| FDM | Large parts, functional prototypes | ±0.15mm | 1-3 days | PLA, ABS, PETG, TPU, Nylon, CF |
| SLA | Visual models, high detail | ±0.05mm | 1-2 days | Resin family |
| SLS | Complex assemblies, durable nylon | ±0.1mm | 2-4 days | PA12, PA11, TPU |
| MJF | Production runs, isotropic strength | ±0.08mm | 2-5 days | PA12, PA11, PP |
| DMLS (Metal) | Aerospace, medical implants | ±0.1mm | 5-10 days | Titanium, Aluminum, Stainless |
| DLP | High‑detail batch production | ±0.05mm | 1-2 days | Resin family |
20+ printers across six technologies, all calibrated daily and monitored in real time.
ISO 9001:2015 and ISO 13485 certified quality management. Full traceability on every order.
Dedicated project engineers provide DFM feedback and material selection guidance — free with every order.
Fast, insured delivery to over 50 countries. Real‑time tracking and discreet packaging.
Upload your 3D model, choose your material, and receive an instant quote. Our team will review your design within hours.