Discover how the hybrid analysis approach drives innovation in materials. Read on for insights into EM and microCT.

Copper-Nickel-Tin Alloy** Introduction to Copper-Nickel-Tin Products Product Characteristics: Spinodal decomposition strengthened alloy, ultra-high strength, elasticity, excellent wear and corrosion ...

nickel, cobalt, and copper. The resulting nano-structured porous martensitic alloys are lighter and stronger, thanks to precise microstructure control from the millimeter down to the atomic scale.

Scientists have developed a new super metal that can maintain its strength and flexibility across an unprecedented range of ...

However, as these methods form microstructures ... In this study, copper chloride was formed on the substrate surface as a source of chloride ions instead of gaseous chloride. Additionally, Galinstan ...

In a first, researchers have developed a new copper alloy that's one of the most resilient copper-based materials ever made.

The alloy demonstrates what researchers say are exceptional strength and stability for use in advanced engineering ...

A cross-section of the new copper alloy, with the orange dots representing ... with strength and durability on the scale of nickel-based superalloys," study co-author Martin Harmer, an professor ...

The strongest Cu-Ta-Li alloy developed to date exhibits outstanding strength and stability, making it ideal for advanced ...

A research team at POSTECH (Pohang University of Science and Technology) has developed a new alloy that maintains its ...

POSTECH scientists developed a high-entropy alloy that stays strong and flexible from –196 °C to 600 °C, opening new ...