The biocompatible MED Digital ABS Plus improves the mechanical performance of biocompatible parts for medical prototyping & functional performance testing.
The Tango 3D printing material simulates soft-touch coatings, nonslip surfaces, rubber surrounds or overmolding for realistic prototyping.
The Durus 3D printing material is the original simulated polypropylene material and exhibits great impact resilience and an elongation at break of 44%.
The softest commercially available 3D printing material lets you create models that feel and behave like native organ tissue when force is applied. TissueMatrix is soft and flexible, but durable enough for suturing, cutting, inserting, and deploying devices. Combined with Agilus30, it creates a range - from highly extensible to stiffened - to simulate fatty tissue, fibrotic tissue, soft organs and tumors.
Digital ABS Plus creates realistic, precise parts & tools with improved mechanical & thermal performance, suitable for range of applications. Learn more
The High Temperature 3D printing material is strong and stiff, ideal for static parts or thermal testing parts that require high heat resistance. Read more.
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.
The Rigur 3D printing material is an advanced simulated polypropylene, offers durability and a smooth finish that looks and behaves like polypropylene.
Agilus30 Colours are flexible 3D printing materials. Rubber-like 3D printing materials with total shore level control that enables multi colour 3D printing.
The VeroFlex 3D printing material offers stiffness and flexibility ideal for all prototyping phases of eyewear design and manufacturing.
The VeroClear 3D printing material simulates PMMA, or acrylic, and is ideal for prototyping clear products as an alternative to glass.
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.
