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3D-printed "metamaterial" is stronger than anything in nature

It's 50% stronger than comparable materials used in aerospace.
By Kristin Houser
April 15, 2024
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Engineering
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A person holding a complex, 3d-printed metamaterial with a lattice
structure
RMIT
By Kristin Houser
April 15, 2024
Fields
Engineering
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By Kristin Houser
April 15, 2024
Fields
Engineering
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Using lasers and metal powder, Australian scientists have created a
super strong, super lightweight new "metamaterial" -- but they got the
idea for this sci fi-sounding creation from plants.

The challenge: Materials that are strong yet lightweight, such as
carbon fiber and graphene, are used to make everything from medical
implants to airships, and developing ones with ever greater
"strength-to-weight ratios" is the goal of many material scientists.

In pursuit of that goal, some have turned to nature, looking for ways
to replicate in metal the hollow lattice structures, like those in
the Victoria water lily, that make some plants remarkably strong.

    "These two elements together show strength and lightness never
    before seen together in nature."

    Ma Qian

What they've been able to create so far using available manufacturing
techniques have fallen short, though -- an uneven distribution of load
stress is a major reason these synthetic materials don't turn out as
strong as their natural counterparts.

"Ideally, the stress in all complex cellular materials should be
evenly spread," said Ma Qian, a distinguished professor of advanced
manufacturing and materials at RMIT University. "For most topologies,
it is common for less than half of the material to mainly bear the
compressive load, while the larger volume of material is structurally
insignificant."

What's new? Using an advanced metal 3D-printing technique, Qian's
team has now created a new "metamaterial" -- a material with
properties not seen in nature -- with a lattice structure that
distributes load stress more evenly.

In testing, their metamaterial, fabricated from a common titanium
alloy, proved to be 50% stronger than the strongest alloy of similar
density used in aerospace. 

"We designed a hollow tubular lattice structure that has a thin band
running inside it," said Qian. "These two elements together show
strength and lightness never before seen together in nature. By
effectively merging two complementary lattice structures to evenly
distribute stress, we avoid the weak points where stress normally
concentrates."

Comparison of two different lattice structures under stress,
illustrated with 3D models and cross-sections displaying stress
distribution in colorful tones.
RMIT
Areas where stress concentrated in a previous design (left) can be
seen in red and yellow. In the new structure (right), stress is more
evenly distributed.

Making a metamaterial: To create their super strong metamaterial, the
RMIT team relied on a 3D printing technique called "laser powder bed
fusion," which is very different from traditional 3D printing, where
a material is extruded from a nozzle layer by layer.

Instead, a layer of metal powder is spread over the base of the
printer. A laser is then used to melt the powder in the desired
pattern. Another layer of powder is then added to the bed, and the
process is repeated, with the newly melted metal binding to the metal
below it.

Looking ahead: While this technique enabled the creation of the
unique metamaterial, it could also be a hurdle to getting it out of
the lab and into real-world applications -- at least initially.

"Traditional manufacturing processes are not practical for the
fabrication of these intricate metal metamaterials, and not everyone
has a laser powder bed fusion machine in their warehouse," said lead
author Jordan Noronha.

"However, as the technology develops, it will become more accessible
and the printing process will become much faster, enabling a larger
audience to implement our high-strength multi-topology metamaterials
in their components," he continued. 

We'd love to hear from you! If you have a comment about this article
or if you have a tip for a future Freethink story, please email us at
[email protected].

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