On elastic supports like a rubber band, they can be stretched to more than 270 percent and for over 1,000 cycles without fatigue.
在橡皮筋等弹性物体支撑下,这种磁感应器可以延展2.7倍以上,即使经过1000多次循环拉伸,也不会出现金属疲劳。
These versatile features are imparted to the magnetoelectronic elements by their ultra-thin and –flexible, yet robust polymeric support.
而上述多种功能之所以能够实现,是因为其磁性电子元件具有超薄、超灵活的特性,并且采用了极为坚固的聚合物材料。
'We have demonstrated an on-skin touch-less human-machine interaction platform, motion and displacement sensorics applicable for soft robots or functional medical implants as well as magnetic functionalities for electronics on the skin', says Michael Melzer.
“我们已经建立了一个非接触式人机交互平台,用于软体机器人或功能性医学移植物的运动和位移传感器,都可以用于这种磁性功能的电子皮肤。”迈克尔·梅尔泽(Michael Melzer)表示。
"Future electronic skin aims to mimic nature’s original both in functionality and appearance," the researchers wrote in Nature communications.
研究人员在《自然通讯》杂志 (Nature Communications)如是写道:“未来的电子皮肤旨在从功能和外观上模仿大自然的原有属性。”
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