Search results for "structural health"

showing 10 items of 52 documents

A Strain Sensing Structural Health Monitoring System for Delaminated Composite Structures

2012

Structural Health Monitoring (SHM) for composite materials is becoming a primary task due to their extended use in safety critical applications. Different methods, based on the use of piezoelectric transducers as well as of fiber optics, has been successfully proposed to detect and monitor damage in composite structural components with particular attention focused on delamination cracks.In the present paper a Structural Health Monitoring model, based on the use of piezoelectric sensors, already proposed by the authors for isotropic damaged components, is extended to delaminated composite structures. The dynamic behavior of the host damaged structure and the bonded piezoelectric sensors is m…

Damaged componentComposite materialMaterials scienceOptical fiberElectric sensing devicePiezoelectric sensorComposite numberDelaminated composite structureDynamic behaviorStructural healthStructure (composition) Piezoelectric transducersBoundary elementlaw.inventionSafety critical applicationlawStructural health monitoring systems Boundary element methodStructural componentDynamic loadSettore ING-IND/04 - Costruzioni E Strutture AerospazialiBoundary element methodStructural health monitoringbusiness.industryDelamination lengthIsotropyDelaminationDamaged structureGeneral MedicineStructural engineeringPiezoelectricityMechanical engineeringPrimary taskDynamic responseDelaminationDual reciprocityStrain sensingStructural health monitoringbusinessPiezoelectric sensorApplied Mechanics and Materials
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Monitoring road pavement performance through a novel data processing approach, accelerated pavement test results

2020

This research presents a novel performance-based interpretation method for continuous monitoring of pavement condition through the use of piezoelectric sensors. The objective of this study is to validate the compressed cumulative loading event approach, implemented in a previously developed piezoelectric sensor, for detecting subsurface fatigue cracking through full-scale accelerated pavement testing. A piezo-electric film of polyvinylidene fluoride is used to harvest the microstrain energy induced by the traffic loading at the surface. Epoxy is used to protect the sensor following a H-shape packaging. Piezoelectric sensors were exposed to approximately 1.0 million load repetitions between …

Data processingAccelerated pavement testingbusiness.industryPiezoelectric sensorPavement responseContinuous monitoringStructural engineeringLongitudinal strainAccelerated Pavement Testing (APT)Asphalt concreteCrackingEnvironmental scienceStructural health monitoring (SHM)businessStrain gaugeStrain gaugeEnergy (signal processing)Piezoelectric sensor
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Advanced Ultrasonic Structural Monitoring of Waveguides

2008

Ultrasonic Guided Waves (UGWs) are a useful tool in those structural health monitoring applications that can benefit from built-in transduction, moderately large inspection ranges and high sensitivity to small flaws. This paper describes two methods, based on linear and nonlinear acoustics for structural damage detection based on UGWs. The linear method combine the advantages of UGW inspection with the outcomes of the Discrete Wavelet Transform (DWT) that is used for extracting defect-sensitive features that can be combined to perform a multivariate diagnosis of damage. In particular, the DWT is exploited to generate a set of relevant wavelet coefficients to construct a uni-dimensional or m…

Discrete wavelet transformDiscrete Wavelet Transform Feature Extraction Nonlinear Acoustics Ultrasonic Guided WaveMaterials scienceAcousticsSpectral densityNonlinear acousticsWaveletHarmonicsHarmonicElectronic engineeringUltrasonic sensorStructural health monitoringSettore ICAR/08 - Scienza Delle Costruzioni
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An unsupervised Learning Algorithm for Fatigue Crack Detection in Waveguides

2009

Ultrasonic guided waves (UGWs) are a useful tool in structural health monitoring (SHM) applications that can benefit from built-in transduction, moderately large inspection ranges, and high sensitivity to small flaws. This paper describes an SHM method based on UGWs and outlier analysis devoted to the detection and quantification of fatigue cracks in structural waveguides. The method combines the advantages of UGWs with the outcomes of the discrete wavelet transform (DWT) to extract defect-sensitive features aimed at performing a multivariate diagnosis of damage. In particular, the DWT is exploited to generate a set of relevant wavelet coefficients to construct a uni-dimensional or multi-di…

Discrete wavelet transformEngineeringGuided wave testingultrasonic guided wave damage index steel control ndt crackbusiness.industryAcousticsCondensed Matter PhysicsNovelty detectionAtomic and Molecular Physics and OpticsWaveletMechanics of MaterialsNondestructive testingSignal ProcessingOutlierForensic engineeringGeneral Materials ScienceUltrasonic sensorStructural health monitoringElectrical and Electronic EngineeringbusinessSettore ICAR/08 - Scienza Delle CostruzioniCivil and Structural Engineering
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Outlier analysis and principal component analysis to detect fatigue cracks in waveguides

2009

Ultrasonic Guided Waves (UGWs) are a useful tool in structural health monitoring (SHM) applications that can benefit from built-in transduction, moderately large inspection ranges and high sensitivity to small flaws. This paper describes a SHM method based on UGWs, discrete wavelet transform (DWT), outlier analysis and principal component analysis (PCA) able to detect and quantify the onset and propagation of fatigue cracks in structural waveguides. The method combines the advantages of guided wave signals processed through the DWT with the outcomes of selecting defectsensitive features to perform a multivariate diagnosis of damage. The framework presented in this paper is applied to the de…

Discrete wavelet transformMultivariate statisticsMultivariate analysisGuided wave testingComputer scienceAcousticsUltrasonic testingWavelet transformOutlier analysisprincipal component analysis fatigue cracks waveguidesPrincipal component analysisOutlierUltrasonic sensorStructural health monitoringSettore ICAR/08 - Scienza Delle Costruzioni
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Application of principal component analysis and wavelet transform to fatigue crack detection in waveguides

2010

Ultrasonic Guided Waves (UGWs) are a useful tool in structural health monitoring (SHM) applications that can benefit from built-in transduction, moderately large inspection ranges and high sensitivity to small flaws. This paper describes a SHM method based on UGWs, discrete wavelet transform (DWT), and principal component analysis (PCA) able to detect and quantify the onset and propagation of fatigue cracks in structural waveguides. The method combines the advantages of guided wave signals processed through the DWT with the outcomes of selecting defect-sensitive features to perform a multivariate diagnosis of damage. This diagnosis is based on the PCA. The framework presented in this paper …

Discrete wavelet transformstructural healthEngineeringGuided wave testingSettore ICAR/07 - Geotecnicabusiness.industryWavelet transformTransduction (psychology)principal component analysiultrasonic guided waveComputer Science ApplicationsControl and Systems EngineeringPrincipal component analysisElectronic engineeringUltrasonic sensorSensitivity (control systems)Structural health monitoringElectrical and Electronic Engineeringbusinessfatigue crack detection
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On the repeatability of the EMI for the monitoring of bonded joints

2015

We study the feasibility and the repeatability of the electromechanical impedance (EMI) method for the health monitoring of lightweight bonded joints. The EMI technique exploits the coupling between the displacement field and the potential field of a piezoelectric material, by attaching or embedding a piezoelectric transducer to the structure to be monitored. The sensor is excited by an external voltage and the electrical admittance which is the ratio between the electric current and the applied voltage is measured as it depends on the mechanical coupling between the transducer and the host structure. Owing to this interaction, the admittance may represent a signature for the health of the …

Electromechanical impedance methodCouplingStructural health monitoringAdmittanceMaterials scienceElectronic Optical and Magnetic MaterialAcousticsLightweight structureBonded jointComputer Science Applications1707 Computer Vision and Pattern RecognitionRepeatabilityCondensed Matter PhysicsPiezoelectricityApplied MathematicTransducerEMIStructural health monitoringElectrical and Electronic EngineeringVoltageSPIE Proceedings
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An integrated structural health monitoring system based on electromechanical impedance and guided ultrasonic waves

2015

We propose a structural health monitoring (SHM) paradigm based on the simultaneous use of ultrasounds and electromechanical impedance (EMI) to monitor waveguides. Methods based on the propagation of guided ultrasonic waves (GUWs) are increasingly used in all those SHM applications that benefit from built-in transduction, moderately large inspection ranges, and high sensitivity to small flaws. Meantime, impedance-based SHM promises to adequately assess locally the structural integrity of simple waveguides and complex structures such as bolted connections. As both methods utilize piezoelectric transducers bonded or embedded to the structure of interest, this paper describes a unified SHM para…

Electromechanical impedance methodEngineeringStructural health monitoringbusiness.industryAcousticsTransduction (psychology)Damage detectionGuided ultrasonic waveTransducerSoftwareEMIElectronic engineeringUltrasonic sensorSensitivity (control systems)Structural health monitoringbusinessSafety Risk Reliability and QualitySettore ING-IND/04 - Costruzioni E Strutture AerospazialiSettore ICAR/08 - Scienza Delle CostruzioniElectrical impedanceCivil and Structural Engineering
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Electromechanical impedance method for the health monitoring of bonded joints: Numerical modelling and experimental validation

2014

The electromechanical impedance (EMI) method is one of the many nondestructive evaluation approaches proposed for the health monitoring of aerospace, civil, and mechanical structures. The method consists of attaching or embedding one or more wafer-type piezoelectric transducers (PZTs) to the system of interest, the host structure, and measuring certain electrical characteristics of the transducers. As these characteristics are also related to the impedance of the host structure, they can be used to infer the mechanical properties of the monitored structure. In the study presented in this paper, we utilize the EMI to monitor the quality of adhesively bonded joints. A finite element formulati…

Electromechanical impedance methodFinite element methodStructural health monitoringBonded jointBuilding and ConstructionCivil and Structural Engineering
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Structural Health Monitoring Procedure for Composite Structures through the use of Artificial Neural Networks

2015

In this paper different architectures of Artificial Neural Networks (ANNs) for structural damage detection are studied. The main objective is to investigate an ANN able to detect and localize damage without any prior knowledge on its characteristics so as to serve as a real-time data processor for Structural Health Monitoring (SHM) systems. Two different architectures are studied: the standard feed-forward Multi Layer Perceptron (MLP) and the Radial Basis Function (RBF) ANNs. The training data are given, in terms of a Damage Index ℑD, properly defined using a piezoelectric sensor signal output to obtain suitable information on the damage position and dimensions. The electromechanical respon…

EngineeringArtificial neural networkBasis (linear algebra)Piezoelectric sensorbusiness.industryComputer Science::Neural and Evolutionary ComputationPattern recognitionStructural engineeringData processing systemMultilayer perceptronPharmacology (medical)Radial basis functionArtificial intelligenceStructural health monitoringbusinessBoundary element methodAerotecnica Missili & Spazio
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