An AI algorithm was taught to produce the lightest and strongest possible geometric structure for a nanomaterial (depending ...

KAIST, University of Toronto create lightweight NANO materials with steel strength KAIST and the University of Toronto ...

Researchers create ultra-strong, lightweight carbon structures using AI and advanced manufacturing. Researchers at the ...

Researchers at (LLNL) have made an exciting breakthrough in multi-material 3D printing by using capillary action—the same ...

and tested the functionalities of the structures in different settings. For the 3D-printed cilia, the team found that adding it to suction cups improved the suction cups’ pull-off force; meanwhile, ...

"However, the standard lattice shapes and geometries used tend ... are arranged in complex 3D structures called nanolattices. To design their improved materials, Serles and Filleter worked with ...

are arranged in complex 3D structures called nanolattices. These optimized nanolattices more than doubled the strength of existing designs, withstanding a stress of 2.03 megapascals for every cubic ...

A new AI-created wonder material is stronger than steel but as light as styrofoam and could revolutionize transportation ...

and tested the functionalities of the structures in different settings. For the 3D-printed cilia, the team found that adding it to suction cups improved the suction cups' pull-off force; meanwhile, ...