Things happen differently at small scales.
Using electricity and water, a new kind of motor can slide microrobots into motion
Microhydraulic actuators, thinner than one-third the width of human hair, are proving to be the most powerful and efficient motors at the microscale.
By Kylie Foy | Lincoln Laboratory MIT News
Look around and you'll likely see something that runs on an electric motor. Powerful and efficient, they keep much of our world moving, everything from our computers to refrigerators to the automatic windows in our cars. But these qualities change for the worse when such motors are shrunk down to sizes smaller than a cubic centimeter.
"At very small scales, you get a heater instead of a motor," said Jakub Kedzierski, staff in MIT Lincoln Laboratory's Chemical, Microsystem, and Nanoscale Technologies Group. Today, no motor exists that is both highly efficient and powerful at microsizes. And that’s a problem, because motors on that scale are needed to put miniaturized systems into motion — microgimbals that can point lasers to a fraction of a degree over thousands of miles, tiny drones that can squeeze into wreckage to find survivors, or even bots that can crawl through the human digestive tract. ... "
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