Stratasys Ltd., introduced new enhancements to its Fused Deposition Modeling (FDM®)-based 3D printers. These enhancements optimize select models for the creation of functional product prototypes, production tools and end-use parts.
–Easier to manufacture complex hollow composite parts with new Sacrificial Tooling Solution
Sacrificial tooling, a process in which 3D printed molds are wrapped in composite material and then removed after part curing, enables manufacturers to rapidly and cost-effectively create complex, hollow composite parts. The new sacrificial tooling solution includes new ST-130 material and new fill patterns. Together, the new material and fill patterns increase build speed, provide faster dissolution, better autoclave performance and better tool quality. This capability is available for the Fortus 450mc and 900mc 3D Printers.
To reduce production time and cost for both parts and tooling, Stratasys is introducing the Fortus 900mc Acceleration Kit. This kit allows very large structures to be 3D printed up to three times faster. The kit will first be compatible with ASA and ULTEM 1010 materials.
–ULTEM 9085 Aerospace: First ULTEM Material with full aerospace traceability
Stratasys ULTEM 9085 Aerospace grade filaments are produced according to aerospace specification requirements. While there is no change from the standard ULTEM 9085 material, the new aerospace designation allows for full production traceability in compliance with strict aerospace requirements. In addition to the Stratasys Certificate of Compliance, each order of ULTEM 9085 Aerospace grade filament comes with traceability documentation and a certificate of analysis confirming batch material properties.
–Tough PC-ABS material available on more Stratasys 3D printers
With its high durability and smooth matte finish, PC-ABS suits challenging applications, such as power-tool prototyping and industrial equipment manufacturing. Owners of the Fortus 380mc and 450mc 3D printers can leverage PC-ABS, reducing time-to-market and high tooling costs for low-volume and custom production builds. 3D printing in real engineering thermoplastics results in stronger parts, more confident testing and prototypes that mimic the material properties of the final product.