Origami, the Japanese art of folding paper, doesn’t seem like it could help stop bullets. But mechanical engineers at Brigham Young University have developed a new ballistic shield design for law ...

There's origami strewn everywhere in the Compliant Mechanisms Research Group's lab at Brigham Young University. The intricately folded designs aren't just for decoration, and they go way beyond the ...

Although the bulletproof shields used by police officers are definitely life-savers, the things are also quite heavy and bulky. The origami-inspired Swift Shield offers an alternative, as it folds ...

BYU mechanical engineers have created an origami-inspired, lightweight bulletproof shield that can protect law enforcement from gunfire. The new ballistic barrier can be folded compactly when not in ...

Provo, Utah — (KUTV) Cutting, taping, and folding to make origami objects is not something you'd expect to find in a university engineering lab, but that's exactly what's happening at Brigham Young ...

(KUTV) BYU engineering professors have developed a lightweight Kevlar shield in hopes of better protecting law enforcement. According to BYU News, the origami-inspired shield is made up of "12 layers ...

It's foldable like origami, but it's as strong as Kevlar. A team of engineers from Brigham Young University successfully developed an ingenious new bulletproof shield inspired by origami but which can ...

Unless modern criminals are easily distracted by paper cranes, “life-saving” probably isn’t the first word you’d think to use to describe the ancient Japanese paper-folding art of origami. That may be ...

A team of engineers at Brigham Young University have built a futuristic shield for law enforcement that can stop handgun bullets. The shield borrows its shape from origami and is much lighter than ...

Engineering professors at Brigham Young University have designed a new bulletproof shield for law enforcement that can withstand shots fired from 9mm, .357 Magnum, and .44 Magnum pistols. The key ...

There’s origami strewn everywhere in the Compliant Mechanisms Research Group’s lab at Brigham Young University. The intricately folded designs aren’t just for decoration, and they go way beyond the ...