This structure looks very similar to chainmail armor, providing flexibility and protection from impact. PAMs feature rings interlocked in three-dimensional networks like chain armor but aren't limited ...

Reimagining chain mail 3D architected materials that adapt and protect Date: January 21, 2025 Source: California Institute of Technology Summary: Experiments have yielded a fascinating new type of ...

The material resembles medieval chainmail at the molecular level and could be used in body armor. Chemists have invented a new material that could be the future of body armor — chainmail.

PAMs are not found in nature, though their basic form is known to us through the millennia-old manufacture of chain mail: small metal rings linked together to form a mesh, most often used as a ...

Resembling the interlocking links in chainmail, the nanoscale material was developed by researchers at Northwestern University and features remarkable flexibility and strength, making it a promising ...

New 2D polymer material developed with exceptional strength Material shows potential for use in lightweight body armour Researchers achieve record mechanical bond ...

A popular barbecue chain has been ordered to pay $2.8 million to a teenager who was brutally burned by their sauce. Genesis Monita, 19, and her sister went to Bill Miller in San Antonio, Texas ...

PAMs are not found in nature, though their basic form is known to us through the millennia-old manufacture of chain mail: small metal rings linked together to form a mesh, most often used as a ...

KUALA LUMPUR, Jan 17 — A supermarket chain has apologised after a Facebook post from a customer highlighted a cockroach spotted on bread at the bakery section of one of its outlets. Village Grocer ...

In what they're calling the "highest density of mechanical bonds ever achieved," researchers created a super-strong flexible material that works very much like chainmail. The breakthrough has ...

Imagine armor as light as fabric yet stronger than steel, built from materials that link together like molecular chainmail. Scientists may have just taken the first step toward making it a reality.

Resembling the interlocking links in chainmail, the nanoscale material exhibits exceptional flexibility and strength. With further work, it holds promise for use in high-performance, light-weight body ...