The new technique could produce materials for use in helicopters, airplanes and spacecraft.

The microarchitecture of fossil pterosaur bones could hold the key to lighter, stronger materials for the next generation of ...

The good news for those looking to see microplastics become the norm on commercial aircraft is that most regulatory hurdles ...

The University of Manchester team has found that the internal biological structure of pterosaur bones could inspire the ...

Parts from former Royal Air Force Tornado GR4 aircraft have been ground down and converted into 3D printable material for use ...

A new analysis of pterosaur bones, however, suggests that their microstructure could inspire lighter, stronger aircraft materials. Pterosaurs were flying reptiles that lived throughout the world ...

stronger materials for future aircraft. The researchers used X-ray imaging to look at fossilised bones from pterosaurs, a prehistoric flying reptile, and discovered details that have never been ...

Ford. Secretary of Defense Lloyd Austin said that the future carriers Clinton and Bush will "serve as lasting tributes to each leader’s legacy in service of the United States." "Aircraft ...

The pterosaurs were the first vertebrates to achieve powered flight. The species evolved to form enormous wingspans reaching ...