Twist and shout: NASA prints 3-D wrench in space

First 3-D printer in space
The 3D Printer during testing in the Microgravity Science Glovebox (MSG) Engineering Unit at Marshall Space Flight Center.


    First 3-D printer in space


First 3-D printer in space 04:29

Story highlights

  • A wrench is first "uplink tool" designed on Earth then emailed and printed in space
  • Made in Space partnered with NASA to send a 3-D printer to International Space Station
  • Goal is in-space manufacturing, especially as missions venture farther from Earth
Bringing supplies to astronauts on the International Space Station can be a little screwy, leaving astronauts waiting for the next costly and risky resupply mission.
This week, thanks to 3-D printing, astronaut and ISS commander Barry "Butch" Wilmore had a wrench he needed manufactured by a printer in just four hours.
The ratcheting socket wrench was the first "uplink tool" printed in space, according to Grant Lowery, marketing and communications manager for Made In Space, which built the printer in partnership with NASA. The tool was designed on the ground, emailed to the space station and then manufactured.
From start to finish, the process took less than a week.
Made in Space's 3-D printer is the first to operate in zero gravity, and printed its first object in orbit -- a part for the printer, ironically -- in November.
"This means that we could go from having a part designed on the ground to printed in orbit within an hour to two from start to finish," Niki Werkheiser, NASA's 3-D print manager, said in a press release when the printer was sent to the ISS in September. "The on-demand capability can revolutionize the constrained supply chain model we are limited to today and will be critical for exploration missions."
Astronaut Barry "Butch" Wilmore holds up the ratchet after removing it from the print tray.
The goal for the project is to create in-space manufacturing, especially as missions venture farther from Earth.
Ultimately, Lowery said the wrench and other objects will be sent back to assess whether there are any functional differences between those samples printed in space versus those on the ground.