A new, extremely tough material could be used to wrap spacecraft

A new, extremely tough material could be used to wrap spacecraft

Diamonds are one of the hardest naturally occurring materials on Earth, and while we’ve discovered minerals stronger than diamonds, scientists may have taken things a step further. According to a new study, scientists have created an extremely hard material as strong as diamond, which they say could be used to make spacecraft and cars stronger.

they Results are published In Science magazine Advanced materials. The research team consists of various members hailing from Europe, Russia and North America, and they have synthesized the semiconductor organic carbon nitride, which is harder than cubic boron nitride, a crystalline material that is second only to diamond in terms of its hardness.

This new material could provide a stronger material that car manufacturers can use. Image source: Gordon Grand/Adobe

Clearly there are many potential uses for a very tough material like this. In addition, there may be a variety of carbon nitrides like these He predicted for the first time In the eighties. However, scientists have spent decades trying and failing to create this legendary substance. But now, it appears that a massive breakthrough has finally occurred.

The researchers manufactured carbon nitride in a way similar to how diamonds form naturally, using extreme pressure while simultaneously blasting it at high temperatures. Scientists say the possibilities for this extremely strong material are almost endless, with protective coated materials for spacecraft and even materials used in automobile manufacturing being described as two possibilities.

Diamonds are actually used in many ways, from drill bits to decorative stones in rings and other jewelry. Obviously, we’re unlikely to see this material appear in jewelry, but it could help replace diamonds in other manufacturing industries, from drill bits used in mining to materials used to protect solar panels from inclement weather and other airborne particles.

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It took more than three decades, but scientists are confident that this breakthrough could help pave the way for the production of more super-strong materials.

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