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Expert 3D printing solutions using advanced Laser Powder Bed Fusion (LPBF) technology for precise and innovative manufacturing by Meticuly.

Next-Level
Additive Manufacturing

Engineering Beyond Limits

Pioneering Additive Manufacturing

Our team of expert engineers is dedicated to pushing the boundaries of 3D printing technology, pioneering advanced innovations in Laser Powder Bed Fusion (LPBF). By leveraging state-of-the-art techniques and materials expertise, we deliver manufacturing solutions that transcend conventional industry limits, enabling new possibilities in design, precision, and functionality for complex applications.

01

Shaping Scalable Personalization

Harnessing the Power of Machine Learning and Materials Science

Our innovations lead the way in developing safer, more durable, and highly biocompatible titanium customized implants, specifically designed to enhance individual patient outcomes. Through advanced technology, we create solutions that set new standards in medical care, delivering life-changing benefits to patients around the world.

3D printing titanium with Laser Powder Bed Fusion (LPBF) technology by Meticuly

02

Precision-Engineered Microstructure

Fine-tuned Parameters for Performance Control

With over 50 meticulously optimized printing parameters, we tailor each process to maximize performance, crafting defect-free microstructures that enhance material properties and ensure exceptional quality in every product.

Microstructure of titanium LPBF 3d printing standard

Microstructure of titanium LPBF 3d printing optimized by meticuly for defect free microstructures

STANDARD

OPTIMIZED

Yield Strength MPa of Laser Powder Bed Fusion 3D printing standard versus Meticuly

Tensile Strength MPA of Laser Powder Bed Fusion 3D printing standard versus Meticuly

03

Bone-Mimicking Porous Structure

Proprietary Porous Design to Enhance Osseointegration

Engineered with a precisely tailored porous structure that mimics natural bone architecture, our design enhances biocompatibility, promotes tissue ingrowth, and ensures seamless integration with surrounding biological structures. This innovative approach guarantees optimal mechanical stability and long-term success, making it ideal for advanced orthopedic applications.

Custom-made titanium hip implant with a close-up of porous structure designed to enhance osseointegration for improved patient outcomes.

3D printed hip implant featuring a bone-like porous structure to promote faster healing by meticuly

04

Advancing
Material Innovation

Innovative alloys and 3D-printed biomaterials for next-generation implant

Our titanium-based alloys are engineered to match bone properties, offering low modulus and antimicrobial benefits. Our 3D printing expertise extends to biomedical materials like silicone and polyamide for augmentation implants and surgical guides. To support bone integration, we develop surface-engineered nanoporous structures that promote ingrowth and enable targeted drug delivery.

3D printed surgical implant for improved patient outcomes by meticuly

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