This video features a full-length build combining Parts 1 & 2, utilizing maple, walnut, and cherry, finished with mineral oil ...

Magnetic graphene oxide sheets fold, move, sense motion, and switch function by swapping magnetic layers, offering a fast, reprogrammable platform for soft robots and other morphable structures.

This video showcases the first half of the build process for 3D patterned cutting boards made from maple, walnut, and cherry.

Advanced 3D printing techniques create flexible origami robots with high magnetic responsiveness, paving the way for biomedical applications and soft robotics.

The next generation of soft robots might be folding and sliding as effortlessly as living tissue, say a team of engineers who ...

Fused Filament Fabrication (FFF) is an Additive Manufacturing process popularized in the last decade due to its easiness of use and lower costs. However, despite its increasing popularity, the process ...

Madonna Yoder ’17 studied rocks at MIT. But her passion is for paper—with no scissors. Today, she’s a tessellation expert who ...

A new 3-D printing technique can create paper-thin "magnetic muscles," which can be applied to origami structures to make them move.

NC State researchers create 3D-printed magnetic origami robots for precise, targeted drug delivery inside the body.

A new 3D printing technique can create paper-thin "magnetic muscles," which can be applied to origami structures to make them ...

Abstract: Soft robotic arms are actively being researched due to their high potential, but they still face challenges in terms of controllability due to their infinite degrees of freedom (DOFs).