3D-printed revolving devices that can sense how they are moving would likely be equipped with sensors that detect changes in motion and orientation. These sensors could include accelerometers, gyroscopes, or magnetometers, among others.
The device could track its position, speed, and orientation to respond in real time to environmental changes. For example, a 3D-printed revolving device equipped with these sensors could adjust its movement to avoid barriers, maintain balance, or perform specific tasks based on its position and orientation.
3D Printing technology could have multiple applications in robotics, automation, and even virtual reality. It’s exciting to see how advancements in 3D printing and sensor technology enable new possibilities for intelligent, responsive devices.
As industrial Postdoctoral Fellow Bettina Brøgger Jensen mentioned,” Graphene is a single layer of carbon with some unique properties that make it the thinnest and strongest material in the world. It will now emerge from the research laboratories and enter the industrial world, where researchers and companies will join forces to demonstrate the value of graphene and 3D printing in developing advanced technology products. Graphene is a material with an enormously sizeable theoretical potential. We want to investigate how to use graphene in the plastic industry to manufacture new products and develop new production processes.”