For over a century, steel rebar has been the go ... 3D printing to produce a polymer lattice structure that can act as the backbone for low-carbon concrete that also boasts great strength and ...

The steel becomes so rigid that, before the carbon atoms can move, they are trapped in the lattice as the iron atoms try to transform to a BCC structure. The result is a body-centered tetragonal ...

Using machine learning, a team of researchers in Canada has created ultrahigh-strength carbon nanolattices, resulting in a material that's as strong as carbon steel, but only as dense as Styrofoam.

Researchers have used machine learning to design nano-architected materials that have the strength of carbon steel but the lightness ... "However, the standard lattice shapes and geometries ...

enabling it to predict entirely new lattice geometries. What makes these nanolattices so strong? The answer lies in the ...

Researchers at the University of Toronto’s Faculty of Applied Science & Engineering have used machine learning to design nano-architected materials that have the strength of carbon steel but the ...

Graphene, a nanocarbon material just 0.3 nanometers thick and 200 times stronger than steel, is starting to revolutionize ...

In this case, the process creates essentially a hollow iron where the inside section is an intricate steel lattice structure ... made of a single material (carbon steel). Or irons can be ...