The biocompatible MED Digital ABS Plus improves the mechanical performance of biocompatible parts for medical prototyping & functional performance testing.
Somos® WeatherX 100 is an environmentally durable DLP photopolymer that was developed for 3D printing functional end-use parts.
The PPSU 3D printing material combines high strength with heat and chemical resistance for demanding functional testing and production applications.
The PC-ABS 3D printing material is a high-impact engineering thermoplastic ideal for functional prototyping, tooling and low-volume manufacturing.
Somos® WaterClear Ultra 10122 is a low-viscosity material that produces accurate, functional parts that simulate an acrylic appearance, with minimised finishing requirements. The material is ideal for applications that require optical clarity, like fluid flow analysis, master patterns and concept and functional models. Somos® WaterClear provides refractive values similar to those of the engineered plastics used for functional testing of optical light transmission work.
The ABS-M30 3D printing material is stronger than standard ABS; ideal for concept modelling, functional prototyping, manufacturing tools and end use parts.
Developed for Origin® 3D printers, Dura56 is a durable, impact-resistant photopolymer with an exceptional surface finish and a low cost per kg. For functional applications where aesthetics and robustness are critical.
Single component industrial strength UV resin that cures to a soft (47A), elastomeric material. Suitable for applications where resilience, snap back, and tear resistance is desired, such as lattice structures and functional prototyping.
Produce functional parts that require high stiffness with a good surface finish and high impact resistance. Attributes are similar to Polypropylene (PP). This material is impact-resistant and is ideal for tooling applications, manufacturing aids, brackets, jigs and fixtures, housings and consumer applications, such as insoles.
With mechanical properties that mimic many engineering plastics, parts created from Somos® 9120 exhibit superior fatigue properties, strong memory retention and a good balance of properties between rigidity and functionality.
Somos® EvoLVe 128 is a durable stereolithography material that produces accurate, highly detailed parts and is designed for easy finishing
The Tango 3D printing material simulates soft-touch coatings, nonslip surfaces, rubber surrounds or overmolding for realistic prototyping.
Somos GP Plus 14122 is a low viscosity stereolithography resin with an opaque white appearance.
The Rigur 3D printing material is an advanced simulated polypropylene, offers durability and a smooth finish that looks and behaves like polypropylene.
The Durus 3D printing material is the original simulated polypropylene material and exhibits great impact resilience and an elongation at break of 44%.
Reactive urethane photopolymer for tough applications that require a combination of high strength, long-term toughness and impact resistance.
A high-strength engineering polymer with good impact resistance and exceptional surface finish. Ideal for a wide variety of tools in the production floor.
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.
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.
Digital ABS Plus creates realistic, precise parts & tools with improved mechanical & thermal performance, suitable for range of applications. Learn 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.
Somos NeXt provides the accuracy of stereolithography with the look, feel and performance of a thermoplastic.
Our first photopolymer from Evonik is a strong, heat-resistant material that addresses applications where a combination of high-temperature resistance and good elongation at break are crucial. P3 Deflect 120 has low viscosity and high green strength, which make it suitable for parts with challenging geometries such as wiring housings, connectors, or mould tooling.
The VeroFlex 3D printing material offers stiffness and flexibility ideal for all prototyping phases of eyewear design and manufacturing.
Agilus30 Colours are flexible 3D printing materials. Rubber-like 3D printing materials with total shore level control that enables multi colour 3D printing.
The Nylon 12 Carbon Fibre (CF) 3d printing material is the highest flexural strength FDM material - offers to replace costly and time-consuming prototypes.
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.
The VeroClear 3D printing material simulates PMMA, or acrylic, and is ideal for prototyping clear products as an alternative to glass.
Ultracur3D® RG 3280 by Forward AM is a highly loaded, ceramic-filled material with extremely high stiffness around 10 GPa and a Heat Deflection Temperature above 280°C. The white, ceramic-like colored resin is very easy to handle and print, especially considering the high particle loading.
The PLA 3D printing material offers strength and heat resistance ideal for low-cost, quick rapid prototyping in a wide range of colours.
