News ID: 168320
Published: 0255 GMT September 07, 2016

Material scientists turn nanotubes into super strong carbon

Material scientists turn nanotubes into super strong carbon

Microstructures are the foundation of material strength. One of the most useful microstructures is the nanotube.

Researchers at Rice University are working on new ways to utilize the nanometer-scale tube-like structures. Their latest strategy is discovery by collision, UPI wrote.

Recently, the scientists begin creating nanodiamonds by smashing carbon nanotubes and other microstructures together at high speeds.

Researchers used a light-gas gun to propel the microstructures at an aluminum target at extremely high speeds.

The collisions were sometimes strong enough to destroy the nanotubes' atomic bonds and trigger unique structural combinations.

The scientists were just as interested in the newly minted microstructures as they were in the collisions that produced them.

By understanding how microstructures are affected by the impacts of high-velocity projectiles, researchers hope to create more resilient light-weight materials for spacecraft and satellites.

"Satellites and spacecraft are at risk of various destructive projectiles, such as micrometeorites and orbital debris," Rice graduate student Sehmus Ozden said in a news release.

"To avoid this kind of destructive damage, we need lightweight, flexible materials with extraordinary mechanical properties. Carbon nanotubes can offer a real solution."

Researchers tested nanotube collisions at a variety of speeds. Most of the nanotubes survived the low-speed collisions, roughly 2.4 miles per second, and many survived the medium-speed collisions, roughly 3.2 miles per second.

Few survived the high-speed collisions at 4.3 miles per second. At the highest speeds, the majority split into nanoribbons and recombined to form new microstructures.

Chandra Sekhar Tiwary, a Rice postdoctoral researcher, said, "In our previous report, we showed that carbon nanotubes form graphene nanoribbons at hypervelocity impact.

"We were expecting to get welded carbon nanostructures, but we were surprised to observe nanodiamond as well."

   
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