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 ...

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, ...

S&T researchers develop new method for 3D printing tissue, with potential to speed up and simplify the process of making ...

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 ...

Using artificial intelligence to control digital manufacturing Researchers train a machine-learning model to monitor and adjust the 3D printing process to correct errors in real-time Date: August 2, ...

A researcher has helped create a new 3D printing approach for shape-changing materials that are likened to muscles, opening the door for improved applications in robotics as well as biomedical and ...

Visualization of a 3D-printed pyramid displaying electrochromic behavior. Due to the different redox states of the conducting material it reversibly changes color in response to electrochemical ...