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Inspired by the shape-change metal robot in Terminator 2: Judgment Day, A team of Wollongong researchers created a "heartbeat" in liquid metal
The Professor Xiaolin Wang, who led the team at the Institute of Superconducting and Electronic Materials, said the discovery of advanced technology has allowed the research team of Wollongong University to produce the metallic pulse as a heartbeat. had many applications – for robots and therefore for humans.
And Professor Wang reckons Terminator James Cameron might well take a look at what the team has imagined to develop his robot a future installment of the sci-fi franchise. It's not that the scientist believes in science fiction
"For me, science fiction is simply a scientific fact that has not yet been discovered," he said. . "I was therefore inspired by the liquid movie robot Hollywood Terminator and wanted to see how its functions could be reproduced .
" The robot had two main features: the first was to change shape, then recover it instantly, and this has already been reproduced by a Chinese research team. The second feature of the robot was to move from a soft to a solid liquid state – and our team at UOW reproduced this effect here in our lab.
"However, we have now been able to create new features for the liquid metal – such I think James Cameron might be interested in watching our videos."
Prof Wang said that even if effects of Similar heartbeats were created in liquid mercury, this one was very toxic and produced an erratic effect. movement difficult to disable or control. His team used liquid gallium, a soft, non-toxic silver metal with a low melting point that produces a steady movement.
"There are many potential applications, he says, to fuel artificial muscles and soft robotics.
" People do not need to worry about the fact that we are developing a more advanced artificial intelligence – what we are doing, is creating new functions to make electronic devices more flexible and beneficial to our daily lives. "[19659003] The results were published in the issue of July 11th of the prestigious scientific journal Physical Review Letters
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