Soldering Away - Soldering Irons in Space

Research aboard the space station is adapting a tried-and-true repair tool, the soldering iron, to weightlessness.

Even on the advanced spacecraft of the future, sooner or later things are bound to break. Space travellers on an extended mission to Mars, for example, would need to be ready to do small repairs just in case, soldering this, welding that.

In the unforgiving environment of space, a successful solder-repair to, say, navigation hardware or an oxygen pump could mean the difference between life and death.

"Surprisingly, relatively little is known about the unique physics of soldering in microgravity," says Richard Grugel, a scientist at NASA's Marshall Space Flight Center who specializes in the solidification of metals.

To learn more about it, Grugel and his colleagues Fay Hua of Intel Corporation and A.V. Anilkumar of Vanderbilt University have planned an experiment for the International Space Station called the "In Space Soldering Investigation" (ISSI). They hope the experiment will shed new light on the physics of soldering and, in the process, make the soldering iron a more reliable tool for astronauts.

Astronaut James Voss uses a soldering iron onboard the International Space Station.

Melted solder behaves differently in space. In the microgravity aboard a spacecraft, molten solder doesn't "feel" a downward pull as it does on Earth, so surface tension becomes more prominent and causes blobs of liquid solder to flow differently. In other words, soldering techniques that work on the ground may not form proper joints in orbit.

Even worse, those soldered joints could be much weaker in orbit. Gas bubbles in the molten solder that often rise to the surface and disappear on Earth can remain suspended within the liquid in orbit. That's because the pull of gravity is the force behind buoyancy, so in microgravity bubbles don't necessarily rise. These tiny bubbles become trapped within the solder as it solidifies, making the joint less effective and more prone to breakage - not a good thing when you're in the mission-critical environment of space!

"How prevalent are these gas bubbles in joints soldered in space? We need to find out, and perhaps find some way to get those gas bubbles out so that we can make good joints that won't break," Grugel says.

The experiment is straightforward: metal wires will be soldered together in various arrangements, reflecting common geometries important for making repairs. Space station crewmembers will use a soldering iron to join these wires with lead-tin solder.