The DraftWhite™ is a rigid white material, targeted for single-material medical applications such as orthopedics and craniomaxillofacial. Learn more here.
Stratasys open specialty materials unlock a wide range of demanding applications, including molding, casting, high-temperature, ceramic, electrostatic discharge (ESD) and elastic applications.
Tough, high-temperature material. Ideal for molds and end-use parts with up to 80°C operating temperature. Excellent surface finish and dimensional accuracy. Also suitable for interior automotive components and other applications requiring high modulus properties.
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.
VeroClear is a rigid transparent 3D printing material that simulates PMMA or acrylic & is ideal for prototyping clear products as an alternative to glass.
3D print accurate, multi-color prototypes to test fit, form and function.
The RGD720 3D printing material is a translucent, multi-purpose photopolymer with high dimensional stability and surface smoothness.
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.
The Durus 3D printing material is the original simulated polypropylene material and exhibits great impact resilience and an elongation at break of 44%.
Digital ABS Plus™ creates realistic, precise parts and tools that deliver high impact strength with high-temperature resistance and superior finish.
ToughOne™ is the next-gen PolyJet™ material built for strength, durability, and precision. Perfect for realistic, functional prototypes that stand up to testing.
Biocompatible resin with high dimensional stability and accuracy, ideal for dental models.
A high temperature resistant resin that offers a smooth surface finish. An ideal choice for consumer goods, automotive industry & others. Learn more now.
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.
Somos® WeatherX 100 is an environmentally durable DLP photopolymer that was developed for 3D printing functional end-use parts.
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.
Discover Loctite 3D IND3785 Low Migration resin for Origin printers—FDA CFR 177.1010 & EU 10/2011 compliant. Ideal for food-safe 3D printing, for dry food and pharma packaging, sorting and dispensing applications as well as jigs & fixtures.
P3™ Deflect 110 is a high strength polyurethane 3D printing resin material with 110°C HDT, chemical resistance and UV stability for end-use production parts.
A sustainable and cost-effective solution, SAF ReLife PA12 allows for the reuse of PA12 powder waste from other PBF technologies, delivering high-quality parts with minimal material costs and up to 90% lower carbon footprint impact.
Learn about Stratasys’ Vero™ContactClear 3D printing material that offers a rigid transparent rapid prototyping material that is biocompatible.
The VeroFlex 3D printing material offers stiffness and flexibility ideal for all prototyping phases of eyewear design and manufacturing.
Biocompatible 3D printing materials yield more accurate models, faster patient visits, lower costs and a greater variety of medical & dental solutions.
The Rigur 3D printing material is an advanced simulated polypropylene, offers durability and a smooth finish that looks and behaves like polypropylene.
Superior opacity, color uniformity, contrast and sharpness.
Create complex material depositing patterns that mimic porous bone structures, fibrotic tissues, and ligaments, providing the most realistic feedback when cutting and drilling.
