Ann R. Thryft, Senior Technical Editor, Materials & Assembly
Slideshow: 3D Printing Will Go to Mars
As it turns out, 3D printing techniques are perfect for use in space. Printers have become small, compact, fast, and powerful. And, as we've discussed before, a wider array of engineering materials are now available.
Packing for a working trip to the International Space Station, the moon, or Mars must be a lot harder than packing for a business trip to Europe. If all an astronaut needed to take along was a 3D printer with the right software library of tools and spare parts (plus some raw materials), that would make things a lot simpler, and it would probably cut fuel costs by a lot.
But additive manufacturing isn't just for astronauts. The makers of components for fighter jets, commercial planes, and unmanned aerial vehicles are also researching the use of 3D printers to produce end-use and production plastic and metal parts.
Many techniques are being put into play, including various forms of selective laser sintering (SLS), conformal lattice structures combined with SLS, fused deposition modeling, and NASA's electron beam freeform fabrication. One process, done with the Contour Crafting robot, can manufacture structures as large as apartment buildings and hotels using locally available materials such as clay and plaster.
Click the image below for 10 out-of-this-world examples of 3D printing techniques.
(Source: University of Southern California/Contour Crafting)