Our Technology
Advanced Metal 3D Printing for Orthopedic Excellence
Powered by EOS M290-2 laser powder bed fusion technology, we deliver precision-engineered implants with unmatched consistency and quality.
Manufacturing Platform
EOS M290-2 Metal 3D Printer
Industry-leading laser powder bed fusion system designed specifically for high-precision medical device manufacturing.
The EOS M290-2 is validated for medical device manufacturing and offers the repeatability and process control required for producing Class III orthopedic implants that meet FDA and CE marking requirements.
Build Volume
250 × 250 × 325 mm enabling efficient batch production of implant components
Dual Laser System
Two 400W lasers for enhanced productivity and reduced build times
Precision
±50 µm layer thickness with exceptional dimensional accuracy for critical features
Inert Atmosphere
Argon/nitrogen atmosphere control ensuring optimal material properties
Our Manufacturing Process
From design to delivery, every step is optimized for quality, consistency, and regulatory compliance.
Design & Engineering
CAD modeling with lattice optimization, FEA analysis, and build preparation using EOS software tools.
Heat Treatment
Stress relief or Hot Isostatic Pressing (HIP) to optimize microstructure and mechanical properties.
Machining & Finishing
CNC machining of articulating surfaces, polishing, and surface treatments per design specifications.
3D Printing
Layer-by-layer fusion using validated EOS M290-2 parameters for Ti-6Al-4V ELI and SS316L materials.
Quality Control
Dimensional inspection, material testing, surface analysis, and documentation for full traceability.
Sterilization & Packaging
Terminal sterilization and packaging in compliance with ISO 11607 standards for medical devices.
Certified Biocompatible Materials
We work exclusively with materials that meet international standards for permanent orthopedic implantation.
Ti-6Al-4V ELI
ASTM F136 | ISO 5832-3 | Grade 23 Titanium
Extra Low Interstitial grade titanium alloy is the gold standard for load-bearing orthopedic implants. With reduced oxygen, nitrogen, and carbon content, Ti-64 ELI offers superior ductility and fatigue resistance compared to standard Grade 5 titanium.
Excellent osseointegration, minimal inflammatory response
High strength-to-weight ratio, fatigue resistant
Superior performance in physiological environments
Well-established safety profile for temporary and permanent implants
High yield strength, excellent toughness
Economical Solution for High-Quality Implants