Journal of Computational Applied Mechanics

Spectral Method For Modeling The Dispersion Of Complex Guided Wave Modes In Anisotropic Pipeline

Document Type : Research Paper

Authors

Laboratory of Mechanics, Engineering and Innovation (LM2I) National High School of Electricity and Mechanics Casablanca, Morocco

Abstract

The aim of the present work is to use the spectral method to plot the dispersion curves of ultrasonic guided waves in anisotropic pipelines. We begin by describing the mathematical formulation of the problem, followed by the application of the spectral method algorithm to plot these curves, covering different levels of anisotropy to test the robustness of the method to various mechanical behaviors. Particular attention is paid to complex modes, poorly studied in the pipeline literature. Results are compared with analytical solutions, and computation time and coding effort are also compared with those of previous analytical methods. These studies demonstrate the significant advantage of the spectral method in terms of accuracy efficiency and computational time savings for plotting the dispersion curves of complex modes in anisotropic pipelines.

Keywords

Main Subjects

[1]          Auld, B. A., 1973, Acoustic fields and waves in solids, Standford university, John Wiley & sons, Рипол Классик.
[2]          Achenbach, J. A., & Achenbach, J. D., 2003. Reciprocity in elastodynamics, Cambridge University Press, United Kingdom, library of congress Cataloging in publication data.
[3]          Zitouni, I., Rhimini, H., & Chouaf, A., A Combined Newton–Bisection Approach for Calculating the Dispersion Curves in Anisotropic Multilayered Waveguides, Journal of Vibration Engineering & Technologies, Vol.12, No.3, pp. 1-13, 2023/11/14, 2023.
[4]          ZITOUNI, Ismaine, RHIMINI, Hassan, et CHOUAF, Abdelkerim. Modeling the Propagation of Ultrasonic Guided Waves in Four-Layer Laminated Composites. In: International Congress for Applied Mechanics. Cham: Springer Nature Switzerland, pp. 25-33, 2022.
[5]          ZITOUNI, I., RHIMINI, H., et CHOUAF, A. Calculation of Dispersion Curves in the Composite Graphite-Epoxy Plate by a Hybrid Analytic Method. In: International Moroccan Congress of Mechanics. Cham: Springer Nature Switzerland, 2022. pp. 3-12, 2022.
[6]          CHEN, Qi, XU, Kailiang, et TA, Dean. High-resolution Lamb waves dispersion curves estimation and elastic property inversion, Ultrasonics, Vol. 115, pp. 106427, 2021/04/16, 2021.
[7]          LIN, Jinyun, LI, Jian, JIANG, Can, et al, Theoretical and experimental investigation of circumferential guided waves in orthotropic annuli, Ultrasonics, Vol. 123, pp. 106715, 2022/02/21, 2022.
[8]          GAZIS, Denos C., Three‐dimensional investigation of the propagation of waves in hollow circular cylinders. I. Analytical foundation, The journal of the Acoustical Society of America, Vol. 31, No 5, pp. 568-573,1959/05, 1959.
[9]          GAZIS, Denos C., Three‐dimensional investigation of the propagation of waves in hollow circular cylinders. II. Numerical results, The Journal of the Acoustical Society of America, Vol. 31, No 5, pp. 573-578, 1959/05, 1959.
[10]        Graff, K. F., 2012, Wave motion in elastic solids, Courier Corporation, USA, Ohio State University Press.
[11]        NAYFEH Adnan H., The propagation of horizontally polarized shear waves in multilayered anisotropic media, The Journal of the Acoustical Society of America, Vol. 86, No 5, pp. 2007-2012, 1989/11, 1989.
[18]        MONNIER, Thomas, Lamb waves-based impact damage monitoring of a stiffened aircraft panel using piezoelectric transducers, Journal of Intelligent Material Systems and Structures, Vol. 17, No 5, pp. 411-421, 2006/05, 2006.
[19]        LI, Qiangqiang, GUO, Yongqiang, et WANG, Yajun, Analysis of Floquet waves in periodic multilayered isotropic media with the method of reverberation-ray matrix. Crystals, Vol. 12, No 7, pp. 904, 2022/06/24, 2022..
[20]        NANDYALA, Anvesh R., DARPE, Ashish K., et SINGH, Satinder P, Effective stiffness matrix method for predicting the dispersion curves in general anisotropic composites, Archive of Applied Mechanics, Vol. 89, pp. 1923-1938, 2019/04/22, 2019.
[21]        AZKOUR, Mustapha, EL ALLAMI, Mhammed, et RHIMINI, Hassan, Calculation of the Dispersion Curves Modeling the Propagation of Ultrasonic Lamb Waves in a Bonded Aluminum/Epoxy/Aluminum Structure Using the Semi-Analytical Finite Element Method. Engineering Transactions, In press, 2024/03/19, 2024.
[22]        YU, J. G., ZHANG, B., LEFEBVRE, Jean-Etienne, et al, Wave propagation in functionally graded piezoelectric rods with rectangular cross-section, Archives of Mechanics, Vol. 67, No 3, pp. 213-231, 2015/03/24, 2015.
[23]        PAVLAKOVIC, Brian, LOWE, Mike, ALLEYNE, David, et al, Disperse: A general purpose program for creating dispersion curves. Review of Progress in Quantitative Nondestructive Evaluation, Vol.16A, pp. 185-192, 1997.
[24]        HUBER, Armin et SAUSE, Markus GR, Classification of solutions for guided waves in anisotropic composites with large numbers of layers, The Journal of the Acoustical Society of America, Vol. 144, No 6, pp. 3236-3251, 2018/12, 2018.
[25]        Huber, A., Dispersion Calculator, electronic library - Dispersion Calculator (dlr.de), 2018/11/06, 2018.
[26]        BOCCHINI, Paolo, MARZANI, Alessandro, et VIOLA, Erasmo, Graphical user interface for guided acoustic waves, Journal of Computing in Civil Engineering, Vol. 25, No 3, pp. 202-210,2011/07/19, 2011.
[27]        ADAMOU, A. T. I. et CRASTER, R. V, Spectral methods for modelling guided waves in elastic media, The Journal of the Acoustical Society of America, Vol. 116, No 3, pp. 1524-1535, 2004/09/07, 2004.
[28]        KARPFINGER, Florian, GUREVICH, Boris, et BAKULIN, Andrey, Modeling of wave dispersion along cylindrical structures using the spectral method, The Journal of the Acoustical Society of America, Vol. 124, No 2, pp. 859-865, 2008/08/01, 2008.
[29]        KARPFINGER, Florian, VALERO, Henri-Pierre, GUREVICH, Boris, et al, Spectral-method algorithm for modeling dispersion of acoustic modes in elastic cylindrical structures, Geophysics, Vol. 75, No 3, pp. H19-H27, 2010/05, 2010.
[30]        YU, Baohua, YANG, Shixi, GAN, Chunbiao, et al, A new procedure for exploring the dispersion characteristics of longitudinal guided waves in a multi-layered tube with a weak interface, Journal of Nondestructive Evaluation, Vol. 32, pp. 263-276, 2013/04/03, 2013.
[31]        ZHARNIKOV, T. V., SYRESIN, D. E., et HSU, C.-J., Calculating the spectrum of anisotropic waveguides using a spectral method, The Journal of the Acoustical Society of America, Vol. 134, No 3, pp. 1739-1753, 2013/09/01, 2013.
[32]        QUINTANILLA, F. Hernando, LOWE, M. J. S., et CRASTER, R. V., Modeling guided elastic waves in generally anisotropic media using a spectral collocation method, The Journal of the Acoustical Society of America, Vol. 137, No 3, pp. 1180-1194, 2015/03/01, 2015.
[33]        QUINTANILLA, F. Hernando, LOWE, M. J. S., et CRASTER, R. V., Full 3D dispersion curve solutions for guided waves in generally anisotropic media, Journal of Sound and Vibration, Vol. 363, pp. 545-559, 2016/11/21, 2016.
[34]        LI, C. L., HAN, Q., LIU, Y. J., et al., Guided wave propagation in rotating functionally graded annular plates, Acta Mechanica, Vol. 228, pp. 1083-1095, 2017/11/17, 2017.
[35]        DUBUC, Brennan, EBRAHIMKHANLOU, Arvin, et SALAMONE, Salvatore, Computation of propagating and non-propagating guided modes in nonuniformly stressed plates using spectral methods, The Journal of the Acoustical Society of America, Vol. 143, No 6, pp. 3220-3230, 2018/06 ,2018.
[36]        ZITOUNI, Ismaine, RHIMINI, Hassan, et CHOUAF, Abdelkerim, Comparative Study of the Spectral Method, DISPERSE and Other‎ Classical Methods for Plotting the Dispersion Curves in‎ Anisotropic Plates, Journal of Applied and Computational Mechanics, Vol. 9, No 4, pp. 955-973, 2023/03/22, 2023.
[37]        ZITOUNI, I., RHIMINI, H., & CHOUAF, A., Modeling the Propagation of Ultrasonic Guided Waves in a Composite Plate by a Spectral Approximation Method, Engineering Transactions, Vol. 71, No 2, pp. 213–227, 2023/03/05, 2023.
[38]        Ismaine, Z., Hassan, R., & Abdelkerim, C., New spectral displacement post-processing approach for modeling ultrasonic guided waves. In 2023 3rd International Conference on Innovative Research in Applied Science, Engineering and Technology (IRASET), IEEE, (pp. 1-8), 2023, May.
[39]        MEKKAOUI, Moussa, NISSABOURI, Salah, et RHIMINI, Hassan, Towards an Optimization of the Spectral Collocation Method with a New Balancing Algorithm for Plotting Dispersion Curves of Composites with Large Numbers of Layers, Journal of Applied and Computational Mechanics, In press, 2024/04/29, 2024..
[40]        Trefethen, L. N., 2000, Spectral methods in MATLAB, Society for industrial and applied mathematics, USA..
[41]        Giurgiutiu, V., & Faisal Haider, M., Propagating, evanescent, and complex wavenumber guided waves in high-performance composites? Materials, Vol. 12, No 2, pp. 269, 2019/01/15, 2019.
Journal of Computational Applied Mechanics
Volume 55, Issue 3
June 2024
Pages 473-484
  • Receive Date: 14 May 2024
  • Revise Date: 02 June 2024
  • Accept Date: 12 June 2024