Researchers at the University of Texas at Austin developed a fast 3D printing process that fuses rubber-like and rigid plastics in one build.

A cheetah's powerful sprint, a snake's lithe slither, or a human's deft grasp: Each is made possible by the seamless interplay between soft and rigid tissues. Muscles, tendons, ligaments, and bones ...

Three dimensional (3D) printing technology has been widely used in metal manufacturing industry. This study focused on the vacuum brazing of 3D printed Inconel 718 superalloy with BNi-2 amorphous ...

This paper presents a novel and efficient multi-layer perceptron with a joint-coordinate gating (MLP-JCG) model, exploring and utilizing both the local and global structural information to perform 3D ...

In this paper, we address the problem of the joint three-dimensional (3D) localization of a hybrid RIS (HRIS) and a user. The most cost- and power-efficient hybrid version of an RIS is equipped with a ...

CRITIC'S NOTEBOOK ICE comes to local restaurants. It was inevitable. Stories like that of Suya Joint’s Paul Dama expose an American injustice.

A group of North Texas doctors and scientists printed part of a human femur—the longest and strongest bone in the body—that mimics the strength, flexibility and overall mechanics of a real ...

With global demand for orthopedic procedures on the rise, innovation in small bone and joint implants is helping unlock new markets and treatment options. In particular, 3D-printed implants and AI ...

Kumiko is a form of Japanese woodworking that uses small cuts of wood (probably offcuts) to produce artful designs. It’s the kind of thing that takes zen-like patience to assemble, and years … ...

How wrong we were, because these boffins have developed a way to 3D print a glass-like material using easy-to-source materials and commonly available equipment.