Every year, millions of tires end up in landfills, creating an environmental crisis with far-reaching consequences. In the United States alone, over 274 million tires were scrapped in 2021, with ...

For decades, researchers have explored how electrons behave in quantum materials. Under certain conditions, electrons ...

Interconnected materials containing networks are ubiquitous in the world around us—rubber, car tires, human and engineered tissues, woven sheets and chain mail armor. Engineers often want these ...

I think this new BikeYoke Sagma 3D mountain bike saddle wants to shake up the industry, offering 3D-printed support at prices ...

The material’s double-lattice structure mimics the intricate skeleton of this Pacific ... “While most materials get thinner when stretched or fatter when squashed, like rubber, auxetics do the ...

like rubber, auxetics do the opposite," explained Dr. Jiaming Ma, who authored the paper on this bio-inspired lattice structure (BLS) that appeared in Composite Structures in January. "Auxetics ...

On Sunday night, Jenner walked the Vanity Fair Oscars 2025 red carpet clad in a sheer black lace gown that’s actually made out of rubber. Jenner wasn’t the only one from the Kardashian family ...

This innovative lattice structure offers exceptional strength, stiffness, and impact resistance, making it a promising option for construction, protective gear, and medical applications.

It is inspired by the skeletal structure of a deep-sea ... stretched or fatter when squashed, like rubber, auxetics do the opposite,” Ma said. However, unlike other natural auxetic materials, the ...

“While most materials get thinner when stretched or fatter when squashed, like rubber, auxetics do the opposite ... gear or medical applications,” he said. The bioinspired lattice structure could work ...

“While most materials get thinner when stretched or fatter when squashed, like rubber, auxetics do the ... The bioinspired lattice structure could work as a steel building frame, for example ...