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Abstrakty
Damage occurring at the work of plate structures may grow to a considerable size. The joint action – the detection of a defect at the earliest possible stage, the monitoring of its growth and the determination of its critical size in the context of structural reliability allows optimizing the cost of the maintenance and repair of structural elements. Thus the development of monitoring systems for permanent observation of fault evolution is of great importance among civil, mechanical and aerospace engineering communities. This paper focuses on a diagnostic system dedicated for plate structures with a variable length linear crack using the guided wave-based technique and a novel ellipse-based binary damage imaging algorithm. The emphasis is put on the relationship between the configuration of embedded piezoelectric transducers and the extent of a defect possible to identify. Numerical and experimental results show that the proposed diagnostic system has a great potential for the implementation in monitoring systems dedicated for the evaluation of damage growth.
Czasopismo
Rocznik
Tom
Strony
387--396
Opis fizyczny
Bibliogr. 26 poz., rys., wykr.
Twórcy
autor
- Department of Mechanics of Materials and Structures, Faculty of Civil and Environmental Engineering, Gdansk University of Technology, ul. Narutowicza 11/12, Gdańsk 80-233, Poland
autor
- Department of Mechanics of Materials and Structures, Faculty of Civil and Environmental Engineering, Gdansk University of Technology, ul. Narutowicza 11/12, Gdańsk 80-233, Poland
Bibliografia
- [1] M. Makki Alamdari, J. Li, B. Samali, Damage identification using 2-D discrete wavelet transform on extended operational mode shapes, Archives of Civil and Mechanical Engineering 15 (2015) 698–710.
- [2] M. Rucka, K. Wilde, Application of continuous wavelet transform in vibration based damage detection method for beam and plates, Journal of Sound and Vibration 297 (2006) 536–550.
- [3] A. Katunin, Stone impact damage identification in composite plates using modal data and quincunx wavelet analysis, Archives of Civil and Mechanical Engineering 15 (2015) 251–261.
- [4] A. Katunin, F. Holewik, Crack identification in composite elements with non-linear geometry using spatial wavelet transform, Archives of Civil and Mechanical Engineering 13 (2013) 287–296.
- [5] M. Korzeniowski, T. Piwowarczyk, R.G. Maev, Application of ultrasonic method for quality evaluation of adhesive layers, Archives of Civil and Mechanical Engineering 14 (2014) 661–670.
- [6] D.C. Worlton, Experimental confirmation of Lamb waves at megacycle frequencies, Journal of Applied Physics 32 (1961) 967–971.
- [7] L. Mallet, B.C. Lee, W.J. Staszewski, F. Scarpa, Structural health monitoring using scanning laser vibrometry: II. Lamb waves for damage detection, Smart Materials and Structures 13 (2004) 261–269.
- [8] M. Rucka, Modelling of in-plane wave propagation in a plate using spectral element method and Kane–Mindlin theory with application to damage detection, Archive of Applied Mechanics 81 (2011) 1877–1888.
- [9] M. Rucka, B. Zima, R. Kędra, Application of guided wave propagation in diagnostics of steel bridge components, Archives of Civil Engineering LX (4) (2014) 493–515.
- [10] S.S. Kessler, S.M. Spearing, C. Soutis, Damage detection in composite materials using Lamb wave methods, Smart Materials and Structures 11 (2002) 269–278.
- [11] V.Y. Senyurek, Detection of cuts and impact damage at the aircraft wing slat by using Lamb wave method, Measurement 67 (2015) 10–23.
- [12] V. Giurgiutiu, Structural Health Monitoring with Piezoelectric Wafer Active Sensors, Academic Press, 2008.
- [13] W. Ostachowicz, P. Kudela, M. Krawczuk, A. Żak, Guided Waves in Structures form SHM. The Time-Domain Spectral Element Method, John Wiley & Sons Ltd., 2012.
- [14] P.S. Tua, S.T. Quek, Q. Wang, Detection of crack in plates using piezo-actuated Lamb waves, Smart Materials and Structures 13 (2004) 643–660.
- [15] J.E. Michaels, T.E. Michaels, Guided wave signal processing and image fusion for in situ damage localization in plates, Wave Motion 44 (2007) 482–492.
- [16] P. Kudela, W. Ostachowicz, A. Żak, Damage detection in composite plates with embedded PZT transducers, Mechanical Systems and Signal Processing 22 (2008) 1327–1335.
- [17] J. Moll, R.T. Schulte, B. Hartmann, C.-P. Fritzen, O. Nelles, Multi-site damage localization in anisotropic plate-like structures using an active guided wave structural health monitoring system, Smart Materials and Structures 19 (2010), 045022(16 pp.).
- [18] L. Yu, G. Bottai-Santoni, V. Giurgiutiu, Shear lag solution for tuning ultrasonic piezoelectric wafer active sensors with applications to lamb wave array imaging, International Journal of Engineering Science 48 (2010) 848–861.
- [19] P. Malinowski, T. Wandowski, W. Ostachowicz, Damage detection potential of a triangular piezoelectric configuration, Mechanical Systems and Signal Processing 25 (2011) 2722–2732.
- [20] T. Wandowski, P. Malinowski, W. Ostachowicz, Damage detection with concentrated configurations of piezoelectric transducers, Smart Materials and Structures 20 (2011), 025002(14 pp.).
- [21] X. Lu, M. Lu, L.-M. Zhou, Z. Su, L. Cheng, L. Ye, G. Meng, Evaluation of welding damage in welded tubular steel structures using guided waves and probability-based imaging approach, Smart Materials and Structures 20 (2011) 015018 (15pp).
- [22] G.A. Yan, Bayesian approach for damage localization in plate-like structures using Lamb waves, Smart Materials and Structures 22 (2013), 035012(17 pp.).
- [23] L. Zeng, J. Lin, Chirp-based dispersion pre-compensation for high resolution Lamb wave inspection, NDT&E International 61 (2014) 35–44.
- [24] O.A. Vanli, C. Zhang, A. Nguyen, B. Wang, A minimax sensor placement approach for damage detection in composite structures, Journal of Intelligent Material Systems and Structures 23 (2012) 919–932.
- [25] C. Fendzi, J. Morel, M. Rébillat, M. Guskov, N. Mechbal, G. Coffignal, Optimal sensors placement to enhance damage detection in composite plates, in: Proc. 7th European Workshop on Structural Health Monitoring, 2014.
- [26] R.P. Feynman, R.B. Leighton, M. Sands, The Feynman Lectures on Physics, vol. 1, Mainly Mechanics, Radiation and Heat, California Institute of Technology, 1963.
Uwagi
PL
Opracowanie ze środków MNiSW w ramach umowy 812/P-DUN/2016 na działalność upowszechniającą naukę
Typ dokumentu
Bibliografia
Identyfikator YADDA
bwmeta1.element.baztech-0ab6c693-01e2-4800-bbfc-f32ef450a557