Additive manufacturing can turn everyday magnetic material into alternatives for expansive rare-earth magnets. Engineers at the Amess Laboratory’s Critical Materials Institute used laser 3D metal ...

In a paper published in Scientific Reports, scientists at Oak Ridge National Labs present 3D printed permanent isotropic magnets that use rare earth metals recycled from computer hard drives. The ...

There is virtually no limit to the items that can be produced with 3D-printing technology these days, and now researchers at the US Department of Energy’s Oak Ridge National Laboratory (ORNL) have ...

From wind turbines and electric motors to sensors and magnetic switching systems: permanent magnets are used in many different electrical applications. The production of these magnets usually involves ...

VIENNA, Oct. 25 (UPI) --From a technological perspective, making a powerful magnet is no problem. Precisely controlling the shape of magnet's magnetic field, however, has proven difficult -- until now ...

This is magic, big news, both, or neither. It’s so exciting to see magnets behave in this bizarre and wonderful way that we think it’s hard to forecast where this will go. Shown above is a pair of ...

Scientists fabricated isotropic, near-net-shape, neodymium-iron-boron (NdFeB) bonded magnets at DOE’s Manufacturing Demonstration Facility at ORNL using the Big Area Additive Manufacturing (BAAM) ...

Safety critical components for aircraft and Formula 1 racing cars could one day be 3D printed via a new technique, developed by researchers at UCL and the University of Greenwich, that substantially ...

Safety critical components for aircraft and Formula 1 racing cars could one day be 3D printed via a new technique that substantially reduces imperfections in the manufacturing process. Safety critical ...