Unique GelMatrix material and GelSupport™ depositing patterns allow you to print small and large, complex vascular structures and easily remove internal support material.
The advanced material has a pudding-like consistency that allows for simple cleaning of blood vessel models. Water jets easily remove GelMatrix from blood vessels with inner diameters and wall thicknesses as small as 1.0 mm.
Introducing RadioMatrix™, first of its kind Radiopaque 3D printing material available on the Digital Anatomy Printer. The new material enables 3D printed anatomical models with radiopacity characteristics in varying contrast that can appear in a CT or X-ray scan.
Watch videoBoneMatrix creates complex material depositing patterns that mimic porous bone structures, fibrotic tissues, and ligaments. It is a tough, flexible material with memory to maintain its shape. Musculoskeletal models match bone density characteristics and behave like native bone when force is applied such as discectomy, drilling, reaming or sawing.
Watch videoIntroducing RadioMatrix™, first of its kind Radiopaque 3D printing material available on the Digital Anatomy Printer. The new material enables 3D printed anatomical models with radiopacity characteristics in varying contrast that can appear in a CT or X-ray scan.
The softest commercially available 3D printing material lets you create models that feel and behave like native organ tissue when force is applied.
BoneMatrix creates complex material depositing patterns that mimic porous bone structures, fibrotic tissues, and ligaments. It is a tough, flexible material with memory to maintain its shape. Musculoskeletal models match bone density characteristics and behave like native bone when force is applied such as discectomy, drilling, reaming or sawing.