All posts tagged: space engineering

Moon dust could become the foundation of humanity’s first permanent lunar base

Moon dust could become the foundation of humanity’s first permanent lunar base

Published by Jenni Sidey

The dust under a moonwalker’s boots looks harmless from a distance. Up close, it is anything but. Lunar regolith, the blanket of pulverized rock and glass covering the moon, is abrasive, dangerous and unforgiving. In fact, it can tear through seals, wear down equipment and cling to surfaces in an airless environment. That environment is marked by radiation and violent temperature swings. That makes it one of the worst imaginable building materials. It may also be one of the most important. At Texas A&M University, researchers are treating lunar regolith not just as a hazard to survive. Instead, they see it as a resource to use. Their work is tied to one of the biggest practical questions in space exploration. That question is how to build a lasting human presence on the moon without hauling nearly everything from Earth. Researchers at Texas A&M are designing the blueprint for sustained human presence, and settlement, on the moon. (CREDIT: AI generated image / Texas A&M University) “We are moving past the era of ‘flags and footprints,’” said …

3D printed moon dust structures could be the future of lunar construction

3D printed moon dust structures could be the future of lunar construction

Published by Jenni Sidey

A gray powder that looks like ash can become something closer to stone when hit with the right beam of light. Engineers have shown that simulated lunar soil can be melted and layered into solid shapes using a laser-based 3D printing technique, producing materials that tolerate heat and mechanical stress. The approach could help future astronauts build tools, landing pads, and habitat components directly on the Moon instead of hauling heavy supplies from Earth. The work, led by researchers at The Ohio State University and published in Acta Astronautica, focuses on a manufacturing strategy known as laser-directed energy deposition, or LDED. It involves feeding powdered material into a laser-generated melt pool, where it rapidly cools and solidifies into a new structure. A construction material already waiting on the Moon Lunar regolith, the dusty layer covering the Moon’s surface, comes from billions of years of meteor impacts that shattered rock into fine fragments. Because actual samples are scarce, scientists often rely on laboratory substitutes. The team used a version called LHS-1, designed to mimic soil from …