Space spider reborn: China revives NASA’s orbital construction robot dream

Chinese researcher are reportedly developing their own version of NASA’s “SpiderFab” orbital fabrication autonomous robot. Never tested in orbit, NASA’s robot could, in theory, perform tasks like weaving solar power stations and antennae in space from spools of carbon fiber. The idea would be for robots like it to construct structures in low-to-zero gravity that are normally too large to carry as a payload in rockets or other spacecraft. Mothballed by NASA, researchers from Shenyang Institute of Automation in northern China believe the idea still has legs (no pun intended). At present, any piece of kit sent to space needs to be built on Earth and designed in such a way that it can fold neatly inside a spacecraft. This then needs to be launched into space and then unfolded or deployed in space . While this has proved very effective, it does introduce a hard ceiling on what can actually be sent to space. Things like an object’s size and weight must meet certain criteria, and they must also be designed to be robust enough to survive the violence of a rocket launch. China makes its own SpiderFab But concepts like SpiderFab could, in theory, completely change all that. Instead of launching stuff into orbit, robots like it could make things in space from raw materials, like carbon fiber spools. Similar to how spiders spin webs on Earth, such robots could effectively 3D-print structures in space. This would, in theory, mean there would be no real limit to what they could create, so long as they have enough printing material available. So, things like a kilometer-wide antenna or enormous solar arrays should be well within the realm of possibility. Picking up the baton, the Chinese team reports they have managed to solve two major problems NASA faced with their attempt. Their robot, the team reports, uses carbon-fiber composites rather than just “pure” carbon fiber. This, they say, can be shaped in long hollow tubes which are extremely strong and very light, making them ide…