Engineers at the Massachusetts Institute of Technology have found a way to create a metamaterial that is both strong and stretchy. (A metamaterial is a synthetic material with microscopic structures that give it exceptional properties.) The key to the new material’s dual properties is a combination of stiff microscopic struts and a softer woven architecture. The researchers printed samples of the new metamaterial, each measuring in size from several square microns to several square millimeters. They put the material through a series of stress tests, in which they attached either end of the sample to a specialized nanomechanical press and measured the force it took to pull the material apart. They found their new material was able to stretch three times its own length. The researchers say the new design can be applied to other materials and create stretchy ceramics, glass, and metals. This work was performed, in part, through the use of MIT.nano’s facilities.
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