Scientists at the University of Massachusetts Amherst have appropriated a less-common technique of origami known as "collapse"-type, in which all folds are carried out more or less simultaneously, to ...

The action that's been reserved for thin, flexible materials is about to get a boost. Researchers studying the ancient art of origami have figured out some new ways to make rigid, thick structures ...

BYU Engineering is well known for origami-inspired research and innovations, including foldable antenna systems used in space. Recently, an undergraduate student made a significant discovery—a new ...

Some 20 years or so, various individuals recognised that the problem of folding a square sheet of paper into an arbitrary 3D shape had many similarities to problems in computational geometry. These ...

Back in 1999, Erik Demaine was a PhD student who created an algorithm that determined the folding patterns necessary to turn a piece of paper into any 3D shape. However, the algorithm was far from ...

This novel fabrication process makes lightweight, expandable, 3D structures. Engineers at The Georgia Institute of Technology have merged the ancient art of folding paper, origami, with 3D printing to ...

Researchers have folded their way into a groundbreaking new family of origami patterns. Dubbed bloom patterns, because they resemble flowers as they unfold, the new class of origami shapes holds great ...

The art of origami goes back centuries — enough time to explore every possible crease that can be made in a sheet of paper, one might think. And yet, researchers have now found a new class of origami ...

Maksud Rahman, University of Houston assistant professor of mechanical and aerospace engineering, has created a new ceramic material that can bend - but not break - with applications ranging from ...