Schematic illustration showing how the EWF (an athermal effect) induced by HDPEC drives atomic motion and triggers phase transformation and microstructural refinement within an extremely short time, ...

(Nanowerk News) A team of researchers has created a new class of titanium alloys that are strong and not brittle under tension, by integrating alloy and 3D-printing process designs. The breakthrough, ...

(a1-d1) 3D visualization images of the quasi in situ XRT test sample evaluating the size and spatial distribution of microvoids. (a2-d2) Reconstructed orientation maps of prior β grains based on the ...

There are empirical design rules for industrial titanium alloys that limit the oxygen content to between 0.12% and 0.72%, depending on which alloy is being made, and aluminum is typically used for ...

A team of engineers at RMIT University has developed a groundbreaking 3D-printed titanium alloy that s stronger, more ductile, and nearly 30% cheaper to produce than the traditional standard. By ...

A research team led by professors Zhang Zhefeng and Zhang Zhenjun from the Institute of Metal Research (IMR) of the Chinese Academy of Sciences has proposed a novel strategy for fabricating an ...