Litcius/Paper detail

Designing Artificial Vibration Modes of Piezoelectric Devices Using Programmable, 3D Ordered Structure with Piezoceramic Strain Units

Zhanmiao Li, Xingyu Yi, Jikun Yang, Lang Bian, Zhonghui Yu, Shuxiang Dong

2021Advanced Materials41 citationsDOI

Abstract

Piezoelectric ceramic devices, which utilize multifarious vibration modes to realize electromechanical coupling and energy conversions, are extensively used in high-technological fields. However, the excitation of basic modes is mainly subjected to natural eigenfrequency of ceramic devices, which is related to the structure and material parameters. Herein, inspired by metamaterial theory, a programmable, 3D ordered structure with piezoceramic strain units (3D OSPSU) is developed to artificially generate basic modes in a broad frequency band other than only in narrow eigenfrequency. A (2 × 2 × 2) arrayed, co-fired, multilayer 3D OSPSU is painstakingly designed and fabricated for generating basic modes, such as flexural, extension, shear, torsion, and even coupled modes at nonresonance. To validate the 3D OSPSU method, a five-degree-of-freedom micro-nano actuating platform based on only one co-fired multilayer ceramic is constructed. The proposed methodology provides a new paradigm for creating extraordinary material properties of piezoelectric ceramics and will inspire brand-new piezoelectric device designs.

Topics & Concepts

Materials sciencePiezoelectricityCeramicTorsion (gastropod)VibrationMetamaterialAcousticsElectromechanical coupling coefficientMechanical engineeringComposite materialStructural engineeringOptoelectronicsEngineeringPhysicsMedicineSurgeryFerroelectric and Piezoelectric MaterialsDielectric materials and actuatorsAcoustic Wave Phenomena Research