Scientists at Cornell have created a 3D printing process that can help improve superconductor performance with record-breaking surface area on compound superconductors.

Researchers used 3D printing and capillary action to create customizable neural chips, expanding design freedom for brain ...

Polymer-based conductive nanocomposites, particularly those incorporating carbon nanotubes, are highly promising for the ...

Researchers have come up with a 3D printing method using liquid metal that's claimed to produce structures at least 10 times faster than existing metal additive manufacturing processes, though it does ...

People are increasingly turning to software to design complex material structures like airplane wings and medical implants. But as design models become more capable, our fabrication techniques haven't ...

The University of Texas at Austin researchers have developed a chemical process that could revolutionize light-driven 3D printing. The University of Texas at Austin Vat photopolymerization, a powerful ...

The US researchers investigated nuclear reactor-grade steels made with a 3D printing process called laser powder bed fusion.

The optimized component made of glass fiber-reinforced polyamide is represented here within the NX program with a weight-optimized lattice structure. Photo Credit, all images: Naddcon AIM3D GmbH ...

The speed of light has come to 3D printing. Northwestern engineers have developed a new method that uses light to improve 3D printing speed and precision while also, in combination with a ...

Chemists have developed a way to integrate liquids directly into materials during the 3D printing process. This allows, for example, active medical agents to be incorporated into pharmaceutical ...

Researchers created stretchable, conductive CNT composites with 3D printing, powering smart insoles and wearable sensors for ...