Twitter: Woven macroscopic hypermaterials

Advanced Sci News @AdvSciNews Researchers develop a dual-faced chain mail structure that consists of 3D re-entrant unit cells.

It does a spectacular job of protecting a conical flask from damage while being dropped from height 20 times.

Check it out: http://ow.ly/lIaR50Olo8f https://pic.twitter.com/ebHu717OkG
Replying to @AdvSciNews

Great work! These force and energy networks are very useful for heliospheric applications where high energy density and high force density require much lower mass density. Woven hyperElastic networked structures, with pico-fabricated strength and function, require much less mass.

Great work! These force and energy networks are very useful for heliospheric applications where high energy density and high force density require much lower mass density. Woven hyperelastic networked materials, with pico-fabricated strength and function, require much less mass.

Great work! These force and energy networks are essential for upcoming heliospheric projects where high energy density and high force density require very low mass density. Woven hyperelastic networked materials, with pico-fabricated strength and function, require much less mass.

Great work! These force and energy networks are essential for upcoming heliospheric projects where high energy density and high force density tie to very low mass density. Woven hyperelastic networked materials, with pico-fabricated strength and function, require much less mass.