Publication

Hyperautomation Artificial Intelligence

2023 Defect-band Splitting of a One-dimensional Phononic Crystal with Double Defects for Bending Wave Excitation

본문

Journal
Mathematics
Author
Soo-Ho Jo*, Donghyu Lee, and Byeng D. Youn
Date
2023-09
Citation Index
SCIE (IF: 2.3, Rank: 4.2%)
Vol./ Page
Vol. 11, No. 18, pp. 3852
Year
2023
Abstract

Extensive prior research has delved into the localization of elastic wave energy through defect modes within phononic crystals (PnCs). The amalgamation of defective PnCs with piezoelectric materials has opened new avenues for conceptual innovations catering to energy harvesters, wave filters, and ultrasonic receivers. A recent departure from this conventional paradigm involves designing an ultrasonic actuator that excites elastic waves. However, previous efforts have mostly focused on single-defect scenarios for bending-wave excitation. To push the boundaries, this research takes a step forward by extending PnC design to include double piezoelectric defects. This advancement allows ultrasonic actuators to effectively operate across multiple frequencies. An analytical model originally developed for a single-defect situation via Euler–Bernoulli beam theory is adapted to fit within the framework of a double-defect set-up, predicting wave-excitation performance. Furthermore, a comprehensive study is executed to analyze how changes in input voltage configurations impact the output responses. The ultimate goal is to create ultrasonic transducers that could have practical applications in nondestructive testing for monitoring structural health and in ultrasonic imaging for medical purposes.