Titanium is an important structural metal. Titanium alloys are widely used in aerospace and biomedical applications, thanks to their light weight, remarkable specific strength, superb corrosion ...
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 ...
(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 ...
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. They say they embedded circular ...
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 ...
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, published in the ...
(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, ...
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