(Nanowerk Spotlight) The ability to pattern materials into arbitrary three-dimensional (3D) microstructures is important for electronics, microfluidic networks, tissue engineering scaffolds, photonic ...

For the first time, researchers have used a single-step, laser-based method to produce small, precise hybrid microstructures of silver and flexible silicone. This innovative laser processing ...

Researchers observed how metal microstructures evolve during 3D printing, offering insights to improve strength, reliability, and design of advanced components. In a form of additive manufacturing, ...

ITHACA, N.Y. -- Just as a snowflake’s intricate structure vanishes when it melts and transforms when it refreezes, the microstructure of metals can change during the 3D printing process, resulting in ...

LEMONT, Ill.--(BUSINESS WIRE)--In one form of additive manufacturing, complex metal parts are built one ultra-thin layer at a time — similar to frosting a cake, but with far greater precision and ...

Safe from harsh environmental conditions, electrically and thermally conductive, and with great lithographic resolution: Embedding thin metal microstructures in glass promises exceptional properties ...

Research team from Giessen, the USA and Canada develops a route to elucidate the microstructure of electrochemically grown lithium and sodium metal – control of the microstructure crucial for ...

The properties of steel can be improved in terms of fatigue, weldability, hardness, wear and corrosion resistance, ductility, and tensile strength by either alloy addition or heat treatment processes.

WASHINGTON -- For the first time, researchers have used a single-step, laser-based method to produce small, precise hybrid microstructures of silver and flexible silicone. This innovative laser ...