Scientists use millions of foam lattice combinations to create a robotic elephant with a twisting trunk and jointed limbs.

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

In a step forward for soft robotics and biomedical devices, Rice University engineers have uncovered a powerful new way to ...

A cheetah's powerful sprint, a snake's lithe slither, or a human's deft grasp: Each is made possible by the seamless ...

The 3D printing market is expected to grow from USD 16.16 billion in 2025 and is estimated to reach USD 35.79 billion by 2030 ...

Existing three-dimensional (3D) neuronal culture technology has limitations in brain research due to the difficulty of ...

The direct metal-polymer joining method using small textures on metal surface and injection molding is described. As a metal surface treatment, we here introduce hot water treatment, a simple, ...

D bioprinting uses living cells as "ink" to create functional tissues. Discover how this technology is transforming medicine ...

Learn about the breakthrough in self-sensing plastics, allowing real-time monitoring of their properties in innovative ...