期刊
JOURNAL OF THE MECHANICS AND PHYSICS OF SOLIDS
卷 157, 期 -, 页码 -出版社
PERGAMON-ELSEVIER SCIENCE LTD
DOI: 10.1016/j.jmps.2021.104643
关键词
Metamaterials; Piezoelectricity; Flexoelectricity; Non-centrosymmetry
Through appropriate geometric design, this study introduces a class of low area-fraction, bending-dominated metamaterials that exhibit apparent piezoelectricity even when the base material is not piezoelectric. The research quantifies the apparent piezoresponse and characterizes how lattice geometry, orientation, feature size and area fraction affect it. The work provides guidelines for endowing any dielectric metamaterial with apparent piezoelectricity, leading to non-toxic, environmentally friendly, and biocompatible materials for electromechanical transduction.
ABS T R A C T Through the suitable geometry of a repeating unit, a metamaterial can exhibit a property not present in the base material. Here, we propose a class of low area-fraction, bending-dominated metamaterials that exhibit apparent piezoelectricity, even though the base material is not piezoelectric. The proposed metamaterials exploit a universal electromechanical coupling operative at sub-micron scales, flexoelectricity, and upscale it to the macro-scale through geometrically-polarized material architecture. We quantify the apparent piezoresponse thanks to accurate simulations of continuum flexoelectricity. We characterize how apparent piezoelectric-ity depends on lattice geometry, orientation, feature size and area fraction. We find that if the base material is a good flexoelectric, then our low area-fraction designs exhibit piezoelectric couplings comparable to the best piezoelectric ceramics in bulk. More generally, our work provides the rules to endow any dielectric metamaterial with apparent piezoelectricity, hence enabling non-toxic, environmentally friendly and biocompatible materials for electromechanical transduction.
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