DSM introduces Somos Taurus for elevated temperature 3D printed part applications

Royal DSM, a global science-based company active in health, nutrition and materials,  introduced Somos Taurus at the Additive Manufacturing Users Group (AMUG), an annual technology conference dedicated to the advancement of additive manufacturing. Somos Taurus is the latest addition to the Somos SLA material portfolio which expands its product offering for elevated temperature performance.

Somos Taurus is the first SLA material to be both durable and have the ability to withstand elevated temperatures. With a heat deflection temperature (HDT) of 95°C (203°F), fully functional parts can be created for applications that have more stringent high heat requirements for prototyping or low volume end-use parts. The material is charcoal grey in appearance giving it the look and feel of traditional thermoplastics. In addition, Somos Taurus builds quickly and is easy to process, clean and creates parts with smooth surfaces, fine features and details.

Said Jasper van Dieten-Blom, Global Marketing Manager Somos Materials, “The higher HDT of Somos Taurus allows us to expand into new applications for the automotive, aerospace and electronics markets where high-temperature performance and durability are required. We are excited to deliver this material to our customers and provide them with even more uses for SLA 3D printed parts.”

Said Gerard Winstanley, Toyota Motorsport GmbH, Manager Composites Fabrication and Additive Manufacturing. “Our engineers and technicians have been working with the Somos team to optimize the material for real-world motorsport applications. We are extremely excited with the durability and side wall quality of the parts. The added temperature resistance of the material has allowed us to expand where we use the material to test new prototype parts for our high-performance race cars, giving us a competitive edge in design and testing.”

Somos Taurus is the first of several high-performance SLA materials to come from Somos that combines the toughness and temperature combination that is required for end-use applications.

Somos
www.dsm.com/somos