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

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

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 ...

From the bronze age to the Industrial Revolution and beyond, the discovery and development of new materials has been a ...

There was a time when these could be seen on some Boeing planes – a set of two or four smaller windows positioned to the side ...

Rolls-Royce is recycling parts from old RAF aircraft into 3D printing powders for use in future aerospace applications.

The microarchitecture of fossil pterosaur bones could be replicated to develop materials for next-gen aircraft.

The agreement was signed during the MRO Middle East2025, solidifying a long-standing partnership between the two companies ...

In the evolving fields of materials science and 3D printing, engineers at Lawrence Livermore National Laboratory (LLNL) are exploring novel ways to ...

In aerospace, lightweight, durable materials could enhance the performance and safety of aircraft and spacecraft. Meanwhile, new materials for water purification, carbon capture, and waste ...