“More than a century after the Titanic sank, engineers still have hopes of someday creating “unsinkable” ships. In a step toward reaching that lofty goal, researchers at the University of Rochester’s Institute of Optics have developed a new process that turns ordinary metal tubes unsinkable—meaning they will stay afloat no matter how long they are forced into water or how heavily they are damaged.

Chunlei Guo, a professor of optics and of physics and a senior scientist at URochester’s Laboratory for Laser Energetics, and his team describe their process for creating aluminum tubes with remarkable floating abilities in a study published in Advanced Functional Materials. By etching the interior of aluminum tubes, the researchers create micro- and nano-pits on the surface that turn it superhydrophobic, repelling water and staying dry.

When the treated tube enters water, the superhydrophobic surface traps a stable bubble of air inside the tube, which prevents the tube from getting waterlogged and sinking. The mechanism is similar to how diving bell spiders trap an air bubble to stay buoyant underwater or how fire ants form floating rafts with their hydrophobic bodies.”

From University of Rochester.