Determinan Fraudulent Financial Reporting Using Fraud Pentagon Analysis

This work concerned a technique for a health monitoring system based on the generation and sensing of Lamb waves in composite structures by thin surface-bonded piezoceramic transducers. The objective was to develop transducers that are adapted for the damage detection in orthotropic composites. The key problem with the investigated Lamb waves was to select a mode to be sensitive to the damage. A hybrid modeling technique was therefore used to conceive transducers that were adapted to achieve such a feature. This modeling technique enabled studying the influence of the transducer characteristics on the Lamb waves propagating in orthotropic plates. It was demonstrated that a Lamb mode could be generated dominantly to other modes by using a multi-element transducer. The effectiveness of this technique was successfully verified experimentally on composite plates. It was shown that the dominant Lamb mode, obtained by use of dual-element transducers, was an appropriate mode for successfully detecting a damage in composites.

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Fatigue crack monitoring of riveted aluminium strap joints by Lamb wave analysis and acoustic emission measurement techniques

Grondel

Delebarre

Assaad

et al. 2002

NDT & E International

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Modeling of Lamb waves generated by integrated transducers in composite plates using a coupled finite element–normal modes expansion method

Moulin

Assaad

Delebarre

et al. 2000

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Thin piezoelectric transducers attached to or embedded within composite structures could be used for in situ structural health monitoring. For plate-shaped structures, the useful ultrasonic vibration modes are Lamb waves. Preliminary testing has already demonstrated the suitability and practical feasibility of such integrated transducers, but better control of the generation of Lamb modes seems to be necessary. Therefore, an original modeling approach has been developed, which can be used to design and optimize these "sensitive materials." This modeling technique allows the determination of the amplitude of each Lamb mode excited in a composite plate with surface-bonded or bulk-embedded piezoelectric elements. The method consists of a coupling of the finite element method (FEM) and the normal modes expansion method. The limited finite element mesh of the transducer and its vicinity enables the computation of the mechanical field created by the transducer, which is then introduced as a forcing function into the normal modes equations. The adequacy and accuracy of this modeling method have been numerically and experimentally verified.

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Health monitoring of a composite wingbox structure

et al. 2004

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Detection and localization of a defect in a reverberant plate using acoustic field correlation

Chehami

Moulin

Rosny

et al. 2014

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Green's function can be retrieved from cross-correlation of a diffuse field generated by noise sources. Today, this important result is the fundamental of several passive imaging techniques. The aim of this paper is to establish the suitability of these methods to detect and locate a defect in a reverberant elastic plate. The relations between the noise cross-correlation function over a few number of noise sources and the imaginary part of the Green's function are derived and numerically validated. Then we show through numerical experiments that this technique is exploitable for defect detection and localization in a differential mode, despite a non-perfect estimation of the Green's functions. Finally, a filtering technique based on the singular value decomposition is shown to improve the detection. © 2014 AIP Publishing LL

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Piezoelectric transducer embedded in a composite plate: Application to Lamb wave generation

Moulin

Assaad

Delebarre

et al. 1997

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The aim of this paper is to show that Lamb waves may be effectively generated using piezoelectric transducers embedded inside a composite plate, for nondestructive evaluation and health monitoring applications. A cylindrical transducer embedded in a composite host plate is considered. The electrical impedance of the transducer alone in vacuum and then of the embedded transducer, which allows the identification of the resonance modes, have been obtained by the finite element method (FEM). Moreover, the displacement fields in the plate, which allow the identification of the types of Lamb waves, have been computed at the resonance frequencies. Comparison between the FEM results and the Lamb wave dispersion curves of the host material are in good agreement. Experimental results (electrical impedance, frequency response, and phase velocities) concerning a composite plate specimen containing the same piezoelectric transducer inside it are shown. A good agreement is generally obtained between numerical and experimental results. In addition, it has been shown that the radial mode of the embedded transducer, which has a high coupling coefficient (around 50%), can be used to generate S0 Lamb waves.

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Study of the fundamental Lamb modes interaction with symmetrical notches

Benmeddour

Grondel

Assaad

et al. 2008

NDT & E International

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Study of the fundamental Lamb modes interaction with asymmetrical discontinuities

Benmeddour

Grondel

Assaad

et al. 2008

NDT & E International

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Jamal Assaad

Design of optimal configuration for generating A0 Lamb mode in a composite plate using piezoceramic transducers

Fatigue crack monitoring of riveted aluminium strap joints by Lamb wave analysis and acoustic emission measurement techniques

Modeling of Lamb waves generated by integrated transducers in composite plates using a coupled finite element–normal modes expansion method

Health monitoring of a composite wingbox structure

Detection and localization of a defect in a reverberant plate using acoustic field correlation

Piezoelectric transducer embedded in a composite plate: Application to Lamb wave generation

Study of the fundamental Lamb modes interaction with symmetrical notches

Study of the fundamental Lamb modes interaction with asymmetrical discontinuities

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