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Morphing Metals
aarondubrow writes "Imagine a metal that 'remembers' its original, cold-forged shape, and can return to that shape when exposed to heat or a magnetic pulse. Like magic out of a Harry Potter novel, such a metal could contract on command, or swing back and forth like a pendulum. Believe it or not, such metals already exist. First discovered in 1931, they belong to a class of materials called 'shape memory alloys (SMA),' whose unique atomic make-up allows them to return to their initial form, or alternate between forms through a phase change."
Imagine a carriage that propels itself without the need for horses, fuelled by otherwise useless petroleum spirits. Like magic from some Jules Verne novel, such a carriage could carry a family for hundreds of miles at high speed without tiring, and could revolutionise transportation. Belive it or not, such carriages already exist....
This is a substitute for a clever sig that fits within the maximum number of characters.
They have this newfangled thing in America... its called Sillycon or something like that.
“These shape memory materials have many applications,” said Raymundo Arroyave, assistant professor of mechanical engineering and materials science at Texas A&M. “Despite being heavily studied for the past twenty to thirty years, most of these materials are limited to work at relatively low temperatures.” “This new class of high temperature shape memory alloys can be used in sensing and actuation at temperatures upwards of 200 Celsius, which is very important for the aerospace and the automotive industries,” Arroyave said.
IOW what's new (or rather isn't actually yet) is "it works at higher temperatures". And that they are trying to find the new materials by simulating them with a supercomputer. Or so they hope, because "Computational materials science has a reputation for overselling and underperforming, according to Arroyave, but by all measures, the field is maturing by leaps and bounds."
Fandroids hate facts.