DOI: 10.1002/adma.202313986 ISSN: 0935-9648

Achieving Environmentally‐Adaptive and Multifunctional Hydrodynamic Metamaterials through Active Control

Chaoran Jiang, Haoran Nie, Mengyao Chen, Xiangying Shen, Lei Xu
  • Mechanical Engineering
  • Mechanics of Materials
  • General Materials Science

Abstract

As hydrodynamic metamaterials continue to develop, the inherent limitations of passive‐mode metamaterials become increasingly apparent. First, passive devices are typically designed for specific environments and lack the adaptability to environmental changes. Second, their unique functions often rely on intricate structures, or challenging material properties, or a combination of both. These limitations considerably hinder the potential applications of hydrodynamic metamaterials. In this study, an active‐mode hydrodynamic metamaterial is theoretically proposed and experimentally demonstrated by incorporating source‐and‐sink flow‐dipoles into the system, enabling active manipulation of the flow field with various functionalities. By adjusting the magnitude and direction of the flow‐dipole moment, this device can easily achieve invisibility, flow shielding, and flow enhancing. Furthermore, it is environmentally adaptive and can maintain proper functions in different environments. It is anticipated that this design will significantly enhance tunability and adaptability of hydrodynamic metamaterials in complex and ever‐changing environments.

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