Engineers study lunar regolith to design sustainable Moon landing pads, using in-situ testing, sintering techniques, and robotic construction, supported by NASA and commercial partners like ICON.

Lunar regolith, the unconsolidated layer covering the Moon’s surface, is emerging as a valuable resource for construction and long-term habitation. Recent advances in in situ resource utilisation ...

All Apollo lunar modules, except for Apollo 10's "Snoopy," either impacted the lunar surface or disintegrated in Earth's atmosphere. Apollo 10's lunar module, "Snoopy," was jettisoned and intended to ...

BETHPAGE, N.Y. -- John Devaney and his colleagues weren't exactly sure what Neil Armstrong would set foot on when he climbed down the ladder of the lunar module to the surface of the moon. "We didn't ...

ICON, a leader in advanced construction technologies and large-scale 3D printing, announced today that it has received a contract awarded under Phase III of NASA’s Small Business Innovation Research ...

Most people are familiar with the iconic photograph of astronaut Buzz Aldrin’s boot print on the surface of the moon. But what, exactly, is in the soil that holds the imprint? The answer to this ...

As the lunar exploration mission evolves from exploration to construction and utilization, in situ lunar construction becomes an imperative requirement. The key is regolith solidification and ...

Both the U.S. and China have set their sights on the Moon, aiming to break ground on permanent lunar bases within the next decade. Though there’s no legal basis for claiming territory in space, ...

This video explores the Apollo Lunar Module, the spacecraft that transported astronauts to the moon's surface. It details the ...

Sign up for CNN’s Wonder Theory science newsletter. Explore the universe with news on fascinating discoveries, scientific advancements and more. The propulsion ...