Your search keyword '"Lamb waves"' showing total 19 results

1. Guided Wave Propagation in Metallic and Resin Plates Loaded with Water on Single Surface.

Author

Takahiro Hayashi and Daisuke Inoue

Subjects

*WAVEGUIDES, *THEORY of wave motion, *STRUCTURAL plates, *WATER, *SURFACES (Technology), *LAMB waves, *FINITE element method

Abstract

Our previous papers reported dispersion curves for leaky Lamb waves in a water-loaded plate and wave structures for several typical modes including quasi-Scholte waves [1,2]. The calculations were carried out with a semianalytical finite element (SAFE) method developed for leaky Lamb waves. This study presents SAFE calculations for transient guided waves including time-domain waveforms and animations of wave propagation in metallic and resin water-loaded plates. The results show that non-dispersive and non-attenuated waves propagating along the interface between the fluid and the plate are expected for effective non-destructive evaluation of such fluid-loaded plates as storage tanks and transportation pipes. We calculated transient waves in both steel and polyvinyl chloride (PVC) plates loaded with water on a single side and input dynamic loading from a point source on the other water-free surface as typical examples of metallic and resin plates. For a steel plate, there exists a non-dispersive and non-attenuated mode, called the quasi-Scholte wave, having an almost identical phase velocity to that of water. The quasi-Scholte wave has superior generation efficiency in the low frequency range due to its broad energy distribution across the plate, whereas it is localized near the plate-water interface at higher frequencies. This means that it has superior detectability of inner defects. For a PVC plate, plural non-attenuated modes exist. One of the non-attenuated modes similar to the A0 mode of the Lamb wave in the form of a group velocity dispersion curve is promising for the non-destructive evaluation of the PVC plate because it provides prominent characteristics of generation efficiency and low dispersion. [ABSTRACT FROM AUTHOR]

Published

2016

2. Nonlinear Lamb wave-mixing technique for micro-crack detection in plates.

Author

Jingpin, Jiao, Xiangji, Meng, Cunfu, He, and Bin, Wu

Subjects

*LAMB waves, *MICROCRACKS, *STRUCTURAL plates, *NONLINEAR waves, *FINITE element method

Abstract

In engineering practice, failures due to fatigue cracks in metallic structures have always been difficult to predict. In our study, nonlinear Lamb wave-mixing was applied in the detection of micro-cracks in plates. The analysis of the nonlinear interaction of these waves with cracks of various lengths and widths was performed using finite-element simulations. The simulation results showed that the sideband at the sum frequency provide a sensitive means for micro-crack detection. Moreover, the sideband amplitudes show a monotonic increase with micro-crack length, but a decrease with micro-crack width. Experiments using Lamb wave-mixing were conducted on plates with fatigue cracks. The experimental results show that a proposed acoustic nonlinearity parameter related to the sideband at the sum frequency is sensitive to micro-cracks in plate, and is well correlated with the damage degree. [ABSTRACT FROM AUTHOR]

Published

2017

3. Shear horizontal feature guided ultrasonic waves in plate structures with 90° transverse bends.

Author

Yu, Xudong, Manogharan, Prabhakaran, Fan, Zheng, and Rajagopal, Prabhu

Subjects

*ULTRASONIC waves, *LAMB waves, *SHEAR waves, *STRUCTURAL plates, *SOUND waves, *FINITE element method

Abstract

Antisymmetric and symmetric Lamb-type feature guided waves (FGW) have recently been shown to exist in small angle plate bends. This paper reports Semi-Analytical Finite Element (SAFE) method simulations revealing the existence of a new family of Shear Horizontal ( SH B ) type of FGW mode in 90° bends in plate structures. Mode shapes and velocity dispersion curves are extracted, demonstrating the SH -like nature of a bend-confined mode identified in studies of power flow across the bend. The SH B mode is shown to have reduced attenuation in the higher frequency range, making it an ideal choice for high-resolution inspection of such bends. Further modal studies examine the physical basis for mode confinement, and argue that this is strongly related to FGW phenomena reported earlier, and also linked to the curvature at the bend region. Wedge acoustic waves discussed widely in literature are shown as arising from surface-limiting of the SH B mode at higher frequencies. The results are validated by experiments and supported by 3D Finite Element (FE) simulations. [ABSTRACT FROM AUTHOR]

Published

2016

4. The effects of air gap reflections during air-coupled leaky Lamb wave inspection of thin plates.

Author

Fan, Zichuan, Jiang, Wentao, Cai, Maolin, and Wright, William M.D.

Subjects

*LAMB waves, *STRUCTURAL plates, *ULTRASONIC waves, *ANGLE of attack (Aerodynamics), *ULTRASONIC reflection

Abstract

Air-coupled ultrasonic inspection using leaky Lamb waves offers attractive possibilities for non-contact testing of plate materials and structures. A common method uses an air-coupled pitch–catch configuration, which comprises a transmitter and a receiver positioned at oblique angles to a thin plate. It is well known that the angle of incidence of the ultrasonic bulk wave in the air can be used to preferentially generate specific Lamb wave modes in the plate in a non-contact manner, depending on the plate dimensions and material properties. Multiple reflections of the ultrasonic waves in the air gap between the transmitter and the plate can produce additional delayed waves entering the plate at angles of incidence that are different to those of the original bulk wave source. Similarly, multiple reflections of the leaky Lamb waves in the air gap between the plate and an inclined receiver may then have different angles of incidence and propagation delays when arriving at the receiver and hence the signal analysis may become complex, potentially leading to confusion in the identification of the wave modes. To obtain a better understanding of the generation, propagation and detection of leaky Lamb waves and the effects of reflected waves within the air gaps, a multiphysics model using finite element methods was established. This model facilitated the visualisation of the propagation of the reflected waves between the transducers and the plate, the subsequent generation of additional Lamb wave signals within the plate itself, their leakage into the adjacent air, and the reflections of the leaky waves in the air gap between the plate and receiver. Multiple simulations were performed to evaluate the propagation and reflection of signals produced at different transducer incidence angles. Experimental measurements in air were in good agreement with simulation, which verified that the multiphysics model can provide a convenient and accurate way to interpret the signals in air-coupled ultrasonic inspection using leaky Lamb waves. [ABSTRACT FROM AUTHOR]

Published

2016

5. Transient analysis of leaky Lamb waves with a semi-analytical finite element method.

Author

Inoue, Daisuke and Hayashi, Takahiro

Subjects

*TRANSIENT analysis, *LAMB waves, *FINITE element method, *STRUCTURAL plates, *FLUID mechanics, *DYNAMIC loads, *THEORY of wave motion

Abstract

We previously formulated a semi-analytical finite element technique for Lamb waves in a plate surrounded by fluids and investigated the dispersion curves and wave structures for leaky Lamb waves. Herein, this technique is extended to the calculation of transient responses both in a plate and in fluids for dynamic loading on the plate surface. To gain fundamental insights into guided wave inspection for a water-filled pipe or tank, guided waves generated upon transient loading of a flat plate water-loaded on one side were analyzed. The results show that a quasi-Scholte mode propagating at the plate-water interface is useful for the long-range inspection of a water-loaded plate because of its non-attenuation and minimal dispersion; moreover, this mode has superior generation efficiency in the low-frequency range, while it is localized near the plate-water interface at higher frequencies. [ABSTRACT FROM AUTHOR]

Published

2015

6. Lamb wave band structure in phononic crystal composed of multiple square stubs symmetric or anti-symmetric deposited on a homogeneous plate.

Author

Wang, X. P., Jiang, P., Chen, T. N., and Bao, K.

Subjects

*ENERGY bands, *LAMB waves, *PHONONIC crystals, *STRUCTURAL plates, *FINITE element method

Abstract

This paper theoretically investigates the propagation of Lamb waves in a two-dimensional (2D) phononic crystal (PC) structure composed of multiple square stubs symmetric or anti-symmetric deposited on a thin homogeneous plate. The dispersion relations, the power transmission spectra and the displacement fields of the eigenmodes are studied by using the finite-element method (FEM). We investigate the effect of the distance between adjacent square stubs on the band gaps (BGs). The results show that the distance between adjacent square stubs can remarkably change the location and the width of the BGs. Meanwhile, we conducted a numerically study on the different results between the anti-symmetric and symmetric distribution of the scatterers. The band structure of the anti-symmetric structure PC is significantly different from the symmetric structure. In general, the distribution of the square stubs has an influence on the band structures. We further identify the physical mechanism of the distinction in the formation of the BG between the anti-symmetric and the symmetric model through the displacement fields of the eigenmodes. In addition, we find that the variation of the PC BGs in anti-symmetric and symmetric structure are sensitive to the distance between adjacent square stubs, which could be indispensable to practical applications such as BG tuning. [ABSTRACT FROM AUTHOR]

Published

2015

7. Dispersion of lamb waves under a periodic metal grating in aluminum nitride plates.

Author

Naumenko, Natalya

Subjects

*DISPERSION (Chemistry), *STRUCTURAL plates, *LAMB waves, *ALUMINUM nitride, *OPTICAL gratings, *FINITE element method

Abstract

Dispersion of Lamb waves propagating in AlN plates with a periodic Al grating on the top surface and an Al electrode on the bottom surface is investigated using the numerical technique SDA-FEM-SDA, which combines finite element modeling (FEM) analysis of the electrode region with spectral-domain analysis (SDA) of the adjacent multi-layered half-spaces. Characteristics of zero-order and higher-order Lamb waves are presented as functions of plate thickness and spectral frequency, which varies in the first Brillouin zone. The structures of typical Lamb waves are examined via visualization of the instantaneous displacement fields in the AlN plate confined between the grating and the bottom electrode. The mechanism of building hybrid modes, which arise from intermode coupling between the counter-propagating Lamb waves of different symmetry and order, is illustrated by two examples of modes propagating with wavelengths λ = 3p and λ = 4p, where p is the pitch of the grating. [ABSTRACT FROM AUTHOR]

Published

2014

8. Ultrasonic waves guided by transverse bends in plates subjected to symmetric axial excitation.

Author

Ramadhas, Abilasha, Sreedhar, P., Pattanayak, Roson Kumar, Balasubramaniam, Krishnan, and Rajagopal, Prabhu

Subjects

*ULTRASONIC waves, *THEORY of wave motion, *STRUCTURAL plates, *FINITE element method, *LAMB waves, *THICKNESS measurement, *WAVEGUIDES

Abstract

Inspection of practical plate assemblies is challenging due to the presence of complex features such as bends and corners. The objective is to investigate the influence of bends or curvature in the transverse direction on the propagation of guided waves in plates. A 3D finite element (FE) simulation shows that bends in plates can concentrate and guide ultrasonic energy along the direction of wave propagation. An interesting feature-guided mode that is surprisingly similar to the A0 (fundamental antisymmetric) Lamb mode in normal plates was identified when the bent plate is subjected to 'in-plane' excitation as the generation of this type of mode for a thicknesswise symmetric excitation is unexpected. These results are validated with experiments and discussed using Semi Analytical Finite Element (SAFE) models. [ABSTRACT FROM AUTHOR]

Published

2013

9. Strongly cumulative second harmonic generation in a plate with quadratic nonlinearity: Finite element simulation.

Author

Liu, Yang, Lissenden, Cliff J., and Rose, J. L.

Subjects

*SECOND harmonic generation, *FINITE element method, *STRUCTURAL plates, *NONLINEAR theories, *WAVEGUIDES, *NONDESTRUCTIVE testing, *LAMB waves, *THEORY of wave motion

Abstract

A comprehensive analysis for guided wave preferred fundamental excitation that satisfies cumulative conditions of second harmonic generation in a weakly nonlinear plate has been carried out and then confirmed by finite element modeling for selected cases. The properties of nonlinear forcing terms and secondary mode shapes are manipulated to determine the cumulative second harmonics. Analysis shows that the synchronism points with higher power flux intensity are the preferred fundamental excitations that are suitable for nonlinear guided wave NDE. Finite element modeling of SH mode and Lamb mode fundamental excitation has been conducted on the excitation points selected by the co-analysis method. A linear increase of qualitative nonlinear parameter over the propagation distance has been observed for both Lamb wave and SH wave fundamental excitations. [ABSTRACT FROM AUTHOR]

Published

2013

10. Detection of defects in thin-walled structures by means of Lamb waves.

Author

Gravenkamp, Hauke, Saputra, Albert A., Song, Chongmin, and Prager, Jens

Subjects

*LAMB waves, *FINITE element method, *FRACTURE mechanics, *STRUCTURAL plates, *STRUCTURAL health monitoring, *NUMERICAL analysis, *FOURIER transforms

Abstract

In this paper the Scaled Boundary Finite Element Method (SBFEM) is applied for the simulation of Lamb waves in cracked plates. This method is highly advantageous to study the interaction of different Lamb wave modes with cracks as the crack is not discretized and no refinement is required around the crack tip. Numerical examples are presented for the reflection of the fundamental symmetric and antisymmetric modes from cracks of different depth. The spatial Fourier transformation is employed to calculate the amplitudes of reflected Lamb wave modes. The results reveal possibilities to obtain details of the crack geometry in non-destructive testing and structural health monitoring applications. [ABSTRACT FROM AUTHOR]

Published

2012

11. Baseline subtraction technique in the frequency–wavenumber domain for high sensitivity damage detection.

Author

McKeon, Peter, Yaacoubi, Slah, Declercq, Nico F., Ramadan, Salah, and Yaacoubi, Weina K.

Subjects

*WAVENUMBER, *LAMB waves, *STRUCTURAL plates, *FRACTURE mechanics, *FINITE element method, *ULTRASONIC waves

Abstract

Highlights: [•] Mode conversion of Lamb waves can be used to size notch-type defects in plates. [•] Spectral leakage can hide small amplitude modes in the frequency–wavenumber domain. [•] Baseline subtraction technique is applied to 2DFFT to detect low amplitude modes. [•] Lower limits of detection method are tested via the FEM. [Copyright &y& Elsevier]

Published

2014

12. Sizing strip-like defects in plates using guided waves

Author

Singh, Dilbag, Castaings, Michel, and Bacon, Christophe

Subjects

*LAMB waves, *STRUCTURAL plates, *SCATTERING (Physics), *FINITE element method, *VISCOELASTICITY, *NONDESTRUCTIVE testing, *NUMERICAL analysis, *ALUMINUM, *COMPOSITE materials

Abstract

Abstract: This paper deals with developing a parametric 2D finite-element technique, which can size strip-like defects in elastic or viscoelastic, isotropic or anisotropic material plates. A pure incident Lamb wave mode is sent towards the defect and reflection and transmission coefficients produced by mode conversion phenomenon are used as input data for the inversion process, which consists in quantifying two unknown parameters representing the geometry of the defect. A finite-element-based model is used to simulate the Lamb wave scattering for various values of the aimed parameters, and specific post-processing based on Shkerdin’s orthogonality relation is applied to predict the needed reflection and transmission coefficients. The target is known reflection and transmission coefficients initially obtained from an experiment, which can be either a numerical experiment for validation purposes, or proper measurements on a sample for NDE application purposes. The inversion process is stopped when the predicted reflection and transmission coefficients fit at best those obtained from initial experiment. In this paper, we have quantified two geometrical parameters for three types of defects in different waveguides: the through-thickness depth (or position) and width (or radius) of (1) a circular hole inside an aluminium plate, (2) a rectangular notch at the surface of a Perspex plate, (3) a cracked zone inside a composite plate, representing an impact damage. [Copyright &y& Elsevier]

Published

2011

13. Semi-analytical formulation for the guided waves-based reconstruction of elastic moduli

Author

Sale, Michele, Rizzo, Piervincenzo, and Marzani, Alessandro

Subjects

*ULTRASONIC waves, *ELASTICITY, *STRUCTURAL plates, *FINITE element method, *NUMERICAL analysis, *WAVELETS (Mathematics), *MATHEMATICAL transformations, *MATHEMATICAL symmetry, *WAVEGUIDES

Abstract

Abstract: In this study an inverse procedure based on the propagation of guided ultrasonic waves is proposed for the characterization of the elastic material constants of plates. The procedure consists of an optimization problem in which the discrepancy between the dispersion curves obtained through a semi analytical finite element (SAFE) formulation and numerical or experimental dispersion curves is minimized. The numerical dispersion curves were obtained from the application of the commercial finite element analysis software ANSYS. Finally experimental data were obtained by adopting a hybrid broadband laser/PZT ultrasonic set-up in a pitch-catch configuration. For both numerical and experimental data, the joint time–frequency analysis of the continuous wavelet transform was used. The optimization scheme proposed in this study is based on an improved version of the simplex search method. The scheme inputs an initial guess of the material parameters in the SAFE formulation. The values of these parameters are iteratively updated until the discrepancy between the SAFE-based group velocity dispersion curves and the numerical or experimental curves is minimized. The scheme is designed to minimize the discrepancy associated with the lowest symmetric and anti-symmetric order mode simultaneously. The validity of the SAFE method coupled to the inverse procedure scheme is tested to characterize the elastic material properties of a 2.54mm thick aluminum plate. As the SAFE formulation is valid for waveguides of arbitrary cross-section the paper represents the first step toward the integration of an inversion scheme applicable into the SAFE algorithm to characterize the material properties of waveguides of complex geometries and various boundary conditions. [Copyright &y& Elsevier]

Published

2011

14. Application of signal processing techniques to ultrasonic testing of plates by S 0 Lamb wave mode

Author

Mirahmadi, S. Javid and Honarvar, Farhang

Subjects

*ULTRASONIC testing, *STRUCTURAL plates, *SIGNAL processing, *LAMB waves, *STRUCTURAL health monitoring, *EXTRAPOLATION, *AUTOREGRESSION (Statistics), *FINITE element method

Abstract

Abstract: In recent years, much attention has been paid to the use of Lamb waves for structural health monitoring. This choice is prompted by the high speed of Lamb wave inspection, although their dispersive nature can complicate the interpretation of results, especially when dealing with closely-spaced reflectors. In this paper, the objective is to improve the time resolution and signal-to-noise ratio of signals obtained from inspection of plates by the S 0 Lamb mode. The signal processing scheme used is based on deconvolution of the measured signal by Wiener filtering, followed by autoregressive spectral extrapolation. The deconvolution technique is applied to signals obtained from finite element models and also to experimentally measured signals; both sets of data are based on plates with various types of notch discontinuities. Using this technique, the separation distance between adjacent notches was estimated with high accuracy in both simulated and experimental ultrasonic signals. [ABSTRACT FROM AUTHOR]

Published

2011

15. A hybrid finite element model for simulation of electromagnetic acoustic transducer (EMAT) based plate waves

Author

Dhayalan, R. and Balasubramaniam, Krishnan

Subjects

*FINITE element method, *SIMULATION methods & models, *ELECTROMAGNETIC waves, *ELECTROACOUSTIC transducers, *STRUCTURAL plates, *ELECTRIC coils, *LORENTZ force, *FERROMAGNETIC materials

Abstract

Abstract: This paper reports simulations of the generation of Lamb wave modes in thin plates using a meander coil (meander line) EMAT, which works under the principle of Lorentz force mechanism in non-magnetic materials. The numerical simulations have been compared with measurements. The numerical work presented in this paper is divided into two parts. First, a 2D electromagnetic model is developed for calculating the Lorentz force density, which is the driving force for elastic wave generation within the plate. Second, the calculated force at each point in the metal is used as the driving force for generating elastic wave modes in the plate. These calculated Lamb wave modes are compared with those generated experimentally in a thin plate. Additionally, the measured wave modes are analyzed with the help of dispersion curves and a time–frequency analysis. Our numerical work is also extended to analyze the interaction of Lamb wave modes with defects. The simulations compare favorably with the measurements presented here. [Copyright &y& Elsevier]

Published

2010

16. Experimental study of the A 0 and S 0 Lamb waves interaction with symmetrical notches

Author

Benmeddour, Farouk, Grondel, Sébastien, Assaad, Jamal, and Moulin, Emmanuel

Subjects

*LAMB waves, *TRANSDUCERS, *STRUCTURAL plates, *PIEZOELECTRIC devices, *ULTRASONIC waves, *CALIBRATION, *FINITE element method

Abstract

Abstract: The aim of this work is to study the fundamental Lamb modes interaction with defects in isotropic plates. For these experimental investigations, symmetrical notches with various depths milled in aluminum plates are considered. Moreover, the incident Lamb wave of a specific mode is generated by means of two identical thin piezoceramic transducers placed at the opposite sides of the plate. The waves scattered by the notch are recorded with conventional transducers located on the plate surface in front and behind the defect. The selection of the A 0 or the S 0 modes is obtained by exciting the transducers with anti-phased or in-phased signals, respectively. Furthermore, a calibration process is investigated to correct errors caused by the presence of the receiver between the emitters and the defects. The power reflection and transmission coefficients are then obtained and the power balance is verified. Finally, these measurements are compared successfully with those obtained by a numerical method using the finite-element modeling described in a previous work. [Copyright &y& Elsevier]

Published

2009

17. Lamb mode conversion at edges. A hybrid boundary element–finite-element solution.

Author

Galán, José M. and Abascal, Ramón

Subjects

*FINITE element method, *BOUNDARY element methods, *LAMB waves, *ULTRASONIC waves, *STRUCTURAL plates

Abstract

Two general and flexible numerical techniques based on the finite-element and boundary element methods developed by the authors in a previous paper are applied to study Lamb wave propagation in multilayered plates and Lamb mode conversion at free edges for frequencies beyond the first cutoff frequency. Both techniques are supported by a meshing criterion which guarantees the accuracy of the results when a condition is fulfilled. A finite-element formulation is directly applicable to study Lamb wave propagation and reflection by simple obstacles such as a flat edge. In order to tackle Lamb wave diffraction problems by defects with more complex geometries, a hybrid boundary element–finite-element formulation is used. This technique provides a major improvement with respect to the only previous boundary element application on Lamb waves: the connecting boundary might be placed as close to the reflector as desired, reducing greatly the requirement on mesh size. Two main application problems on practical metallic plates are studied and compared with reported numerical, theoretical, and experimental results: (1) Lamb wave propagation in degraded titanium diffusion bonds, and (2) Lamb mode conversion at inclined or perpendicular free edges of steel plates for frequencies beyond the first cutoff frequency. © 2005 Acoustical Society of America. [ABSTRACT FROM AUTHOR]

Published

2005

18. Prediction and measurement of nonpropagating Lamb modes at the free end of a plate when the fundamental antisymmetric mode A0 is incident.

Author

Diligent, O., Lowe, M. J. S., Le Clézio, E., Castaings, M., and Hosten, B.

Subjects

*LAMB waves, *FINITE element method, *STRUCTURAL plates, *ULTRASONIC waves, *FORECASTING

Abstract

Reflection of Lamb waves when the fundamental mode A0 is incident at the free end of a plate is studied, in order to identify the extent to which the generation of nonpropagating modes influences the field local to the end of the plate. Semi-analytical predictions, finite element simulations, and experimental measurements are presented for frequencies below the A2 cutoff. First it is shown, for frequencies below the A1 cutoff, that reflection of the A0 mode is accompanied by a delay in phase, and that there is significant additional motion due to nonpropagating modes within about five plate thicknesses of the end. The extend of this additional motion in the vicinity of the end of the plate is demonstrated by subtracting the contribution of the propagating modes from the displacement field. The wave field at frequencies above the A1 cutoff is more complex because the A1 as well as the A0 propagating modes are present at the end of the plate. Nevertheless, it has still been possible, using semi-analytical predictions and finite element simulations, to demonstrate the additional motion due to the nonpropagating modes. [ABSTRACT FROM AUTHOR]

Published

2003

19. Piezoelectric transducer parameter selection for exciting a single mode from multiple modes of Lamb waves.

Author

Hai, Zhang, and, Yan, and Jian, Yu

Subjects

*PIEZOELECTRIC transducers, *ELECTRONIC excitation, *LAMB waves, *SURFACES (Technology), *STRUCTURAL plates, *NUMERICAL solutions to wave equations, *NUMERICAL analysis, *SIMULATION methods & models, *FINITE element method

Abstract

Excitation and propagation of Lamb waves by using rectangular and circular piezoelectric transducers surface-bonded to an isotropic plate are investigated in this work. Analytical stain wave solutions are derived for the two transducer shapes, giving the responses of these transducers in Lamb wave fields. The analytical study is supported by a numerical simulation using the finite element method. Symmetric and antisymmetric components in the wave propagation responses are inspected in detail with respect to test parameters such as the transducer geometry, the length and the excitation frequency. By placing only one piezoelectric transducer on the top or the bottom surface of the plate and weakening the strength of one mode while enhancing the strength of the other modes to find the centre frequency, with which the peak wave amplitude ratio between the S0 and A0 modes is maximum, a single mode excitation from the multiple modes of the Lamb waves can be achieved approximately. Experimental data are presented to show the validity of the analyses. The results are used to optimize the Lamb wave detection system. [ABSTRACT FROM AUTHOR]

Published

2011