by CAROLE ROBERTS
Pieces made from imitation moon rock on 3-D
printer. Credit: Washington State University.
Imagine landing on the moon or Mars, putting
rocks through a 3-D printer and making something useful - like a needed wrench
or replacement part.
"It sounds like science fiction, but now
it's really possible," says Amit Bandyopadhyay, professor in the School of
Mechanical and Materials Engineering at Washington State University.
Bandyopadhyay and a group of colleagues recently
published a paper in Rapid Prototyping Journal demonstrating how to print parts
using materials from the moon.
Bandyopadhyay and Susmita Bose, professor in the
School of Mechanical and Materials Engineering, are well known researchers in
the area of three-dimensional printing, creating bone-like materials for orthopaedic
implants.
In 2010, researchers from NASA initiated
discussion with Bandyopadhyay, asking if their research team might be able to
print 3-D objects from moon rock. Because of the tremendous expense of space
travel, researchers strive to limit what space ships have to carry.
Establishment of a lunar or Martian outpost would require using the materials
that are on hand for construction or repairs. That's where the 3-D fabrication
technology might come in.
Three-dimensional fabrication technology, also
known as additive manufacturing, allows researchers to produce complex three
dimensional objects directly from computer-aided design (CAD) models, printing
the material layer by layer. In this case, the material is heated using a laser
to high temperatures and prints out like melting candle wax to a desired shape.
To test the idea, NASA researchers provided
Bandyopadhyay and Bose with 10 pounds of raw lunar regolith simulant, an
imitation moon rock that is used for research purposes.
The WSU researchers were concerned about how the
moon rock material, which is made of silicon, aluminium, calcium, iron and
magnesium oxides, would melt, but they found it behaved similarly to silica.
And, they built a few simple shapes.
The researchers are the first to demonstrate the
ability to fabricate parts using the moon-like material. They sent their pieces
to NASA.
"It doesn't look fantastic, but you can
make something out of it," says Bandyopadhyay.
Using additive manufacturing, the material could
also be tailored, the researchers say. If you want a stronger building
material, for instance, you could perhaps use some moon rock with earth-based
additives.
"The advantage of additive manufacturing is
that you can control the composition as well as the geometry," says Bose.
In the future, the researchers hope to show that the lunar material could be
used to do remote repairs.
"It is an exciting science fiction story,
but maybe we'll hear about it in the next few years," says Bandyopadhyay.
"As long as you can have additive manufacturing set up, you may be able to
scoop up and print whatever you want. It's not that far-fetched."
The research was supported by a $750,000 W.M.
Keck Foundation grant.
Original Source: Washington State University
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