Effects of Applying Different Resonance Amplitude on the Performance of the Impedance-Based Health Monitoring Technique Subjected to Damage

Smart materials such as piezoelectric transducers can be used for monitoring the health of building structures. In this study, a structural health monitoring technique known as the electromechanical impedance (EMI) method is investigated. Although the EMI method has the advantage of using a single p...

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Main Authors: Wongi S. Na, Dong-Woo Seo, Byeong-Cheol Kim, Ki-Tae Park
Format: Article
Language:English
Published: MDPI AG 2018-07-01
Series:Sensors
Subjects:
Online Access:http://www.mdpi.com/1424-8220/18/7/2267
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spelling doaj-a61836e25d8b4032b7d3d1706cbb472c2020-11-24T21:54:51ZengMDPI AGSensors1424-82202018-07-01187226710.3390/s18072267s18072267Effects of Applying Different Resonance Amplitude on the Performance of the Impedance-Based Health Monitoring Technique Subjected to DamageWongi S. Na0Dong-Woo Seo1Byeong-Cheol Kim2Ki-Tae Park3Sustainable Infrastructure Research Center, Korea Institute of Civil Engineering & Building Technology (KICT), Gyeonggi-Do 10223, KoreaSustainable Infrastructure Research Center, Korea Institute of Civil Engineering & Building Technology (KICT), Gyeonggi-Do 10223, KoreaSustainable Infrastructure Research Center, Korea Institute of Civil Engineering & Building Technology (KICT), Gyeonggi-Do 10223, KoreaSustainable Infrastructure Research Center, Korea Institute of Civil Engineering & Building Technology (KICT), Gyeonggi-Do 10223, KoreaSmart materials such as piezoelectric transducers can be used for monitoring the health of building structures. In this study, a structural health monitoring technique known as the electromechanical impedance (EMI) method is investigated. Although the EMI method has the advantage of using a single piezoelectric patch that acts both as the actuator and as the sensor, there are still many issues to be addressed. To further understand the problem, the performance of the EMI method on a structure subjected to progressive damage at different resonance frequency ranges and peak amplitudes was investigated using three different statistical metrics: root-mean-square deviation (RMSD), mean absolute percentage deviation (MAPD) and correlation coefficient deviation (CCD). Metal plates were used throughout the study. The results acquired could be used to further understand the damage identification performance of the EMI method.http://www.mdpi.com/1424-8220/18/7/2267electromechanical impedancepiezoelectric transducerdamage detectionstructural health monitoringnondestructive testing
collection DOAJ
language English
format Article
sources DOAJ
author Wongi S. Na
Dong-Woo Seo
Byeong-Cheol Kim
Ki-Tae Park
spellingShingle Wongi S. Na
Dong-Woo Seo
Byeong-Cheol Kim
Ki-Tae Park
Effects of Applying Different Resonance Amplitude on the Performance of the Impedance-Based Health Monitoring Technique Subjected to Damage
Sensors
electromechanical impedance
piezoelectric transducer
damage detection
structural health monitoring
nondestructive testing
author_facet Wongi S. Na
Dong-Woo Seo
Byeong-Cheol Kim
Ki-Tae Park
author_sort Wongi S. Na
title Effects of Applying Different Resonance Amplitude on the Performance of the Impedance-Based Health Monitoring Technique Subjected to Damage
title_short Effects of Applying Different Resonance Amplitude on the Performance of the Impedance-Based Health Monitoring Technique Subjected to Damage
title_full Effects of Applying Different Resonance Amplitude on the Performance of the Impedance-Based Health Monitoring Technique Subjected to Damage
title_fullStr Effects of Applying Different Resonance Amplitude on the Performance of the Impedance-Based Health Monitoring Technique Subjected to Damage
title_full_unstemmed Effects of Applying Different Resonance Amplitude on the Performance of the Impedance-Based Health Monitoring Technique Subjected to Damage
title_sort effects of applying different resonance amplitude on the performance of the impedance-based health monitoring technique subjected to damage
publisher MDPI AG
series Sensors
issn 1424-8220
publishDate 2018-07-01
description Smart materials such as piezoelectric transducers can be used for monitoring the health of building structures. In this study, a structural health monitoring technique known as the electromechanical impedance (EMI) method is investigated. Although the EMI method has the advantage of using a single piezoelectric patch that acts both as the actuator and as the sensor, there are still many issues to be addressed. To further understand the problem, the performance of the EMI method on a structure subjected to progressive damage at different resonance frequency ranges and peak amplitudes was investigated using three different statistical metrics: root-mean-square deviation (RMSD), mean absolute percentage deviation (MAPD) and correlation coefficient deviation (CCD). Metal plates were used throughout the study. The results acquired could be used to further understand the damage identification performance of the EMI method.
topic electromechanical impedance
piezoelectric transducer
damage detection
structural health monitoring
nondestructive testing
url http://www.mdpi.com/1424-8220/18/7/2267
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