Image: Metal bracket in Ariane 5 is 3-D-printed in titanium
This organically-styled bracket, designed for the interior of an Ariane 5 launcher, was 3-D printed in space-worthy titanium alloy for an R&D project.
This organically-styled bracket, designed for the interior of an Ariane 5 launcher, was 3-D printed in space-worthy titanium alloy for an R&D project.
Engineering
Jun 19, 2019
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Unlike conventional robot arms with hinged and swivel joints, new flexible arms being developed by Professor Stefan Seelecke and his research group at Saarland University are constructed using muscles made from shape-memory ...
Robotics
Mar 19, 2019
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13
It can be used to cool or heat the air in a room or to cool or heat liquids. And it looks like something that Q—the tech specialist and gadgeteer in the James Bond films—might have come up with. The prototype device, ...
General Physics
Mar 13, 2019
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The idea of using hydrogen as the basis of a clean sustainable energy source, often termed a hydrogen economy, has been a topic of conversation for decades. Hydrogen fuel, for example, doesn't emit any carbon dioxide and ...
Materials Science
Jan 4, 2019
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454
NUST MISIS scientists have proposed a technology that can double the strength of composites obtained by 3-D printing from aluminum powder, and advance the characteristics of these products to the quality of titanium alloys: ...
Materials Science
Oct 10, 2018
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41
An improved titanium alloy—stronger than any commercial titanium alloy currently on the market—gets its strength from the novel way atoms are arranged to form a special nanostructure. For the first time, researchers have ...
Condensed Matter
Apr 1, 2016
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One of the goals of Cimav specialists is to develop biomedical implants needed in Mexico, as the ones existing in the domestic market are usually manufactured abroad.
Bio & Medicine
Jan 5, 2015
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62
A development of three universities enables improved thermal and electronic properties on devices with nickel-titanium alloys.
Nanomaterials
Sep 23, 2014
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Titanium alloy golf clubs can cause dangerous wildfires, according to UC Irvine scientists. When a club coated with the lightweight metal is swung and strikes a rock, it creates sparks that can heat to more than 3,000 degrees ...
Materials Science
Mar 19, 2014
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Materials Scientists at the University of Jena examine implants made of nickel-titanium alloy in a long-term study: The team led by Professor Rettenmayr and his colleague Dr. Andreas Undisz report in the current issue of ...
Materials Science
Feb 18, 2014
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