The optimized component made of glass fiber-reinforced polyamide is represented here within the NX program with a weight-optimized lattice structure. Photo Credit, all images: Naddcon AIM3D GmbH ...

The University of Texas at Austin researchers have developed a chemical process that could revolutionize light-driven 3D printing. The University of Texas at Austin Vat photopolymerization, a powerful ...

Light-based 3D printing now works with switchable redox polymer inks, enabling complex structures that change color electrochemically for advanced optoelectronic devices. The complex two- and ...

Hearing aids, mouth guards, dental implants, and other highly tailored structures are often products of 3D printing. These structures are typically made via vat photopolymerization—a form of 3D ...

Thanks to an innovative extension to 3D printing, researchers can create high-performance, low-weight “unbuildable” RF structures that combine dielectrics and patterned conductors. The benefits and ...

AMES, Iowa – The U.S. National Science Foundation (NSF) is looking for materials that “revolutionize and engineer our future.” Researchers at Iowa State University and the University of California, ...

Forward-looking: Researchers at the University of Texas at Austin have unveiled a new 3D printing technique that could transform how engineers and doctors design devices that require both strength and ...

Photocurable 3D printing, widely used for everything from dental treatments to complex prototype manufacturing, is fast and precise but has the limitation of being fragile and easily broken by impact.

A volumetric 3D printing method forms objects inside hanging resin droplets that detach by gravity, eliminating manual steps ...