Abstract
This chapter presents an overview of techniques used to analyze the dynamic response of structures with the objective of detecting, locating and quantifying structural damage. A quick summary of vibration-based techniques is first provided as an introduction to the strainᾢenergy ratio technique. The ability of the strain energy ratio to locate damage and potentially estimate its severity is illustrated through numerical simulations and experimental results on beams and plates. The extension of the concept to the analysis of the wave propagation response is also presented to demonstrate the generality of the approach. Wave-based techniques for the detection and quantification of damage also include the phase gradient technique, and the mode conversion estimation, which are also presented. The chapter concludes with the detailed presentation of the damage force indicator technique as yet another method for damage localization.
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Alleyne D, Cawley P (1992) The interaction of Lamb waves with defects. IEEE Trans Ultrason Ferroelectr Freq Contr 39(3):381ᾢ397
Al-Nassar Y, Datta S, Shah A (1991) Scattering of Lamb waves by a normal rectangular strip weldment. Ultrasonics 292:125ᾢ132
Basri R, Chiu W (2004) Numerical analysis on the interaction of guided Lamb waves with a local elastic stiffness reduction in quasi-isotropic composite plate structures. Comp Struct 66(1ᾢ4):87ᾢ99
Benmeddour F, Grondel S, Assaad J, Moulin E (2008) Study of the fundamental Lamb modes interaction with asymmetrical discontinuities. NDT E Int 415:330ᾢ340
Blotter JD, West RL, Sommerfeldt SD. Spatially continuous power flow using a scanning laser Doppler vibrometer. J Vib Acoust Trans ASME 124(4):476ᾢ482
Castaings M, Clezio EL, Hosten B (2002) Modal decomposition method for modeling the interaction of Lamb waves with cracks. J Acoust Soc Am 1126:2567ᾢ2582
Cawley P, Adams RD (1979) The locations of defects in structures from measurements of natural frequencies. J Strain Anal 14(2):49ᾢ57
Chang CC, Chen L-W (2005) Detection of the location and size of cracks in the multiple cracked beam by spatial wavelet based approach. Mech Syst Signal Process 19:139ᾢ155
Cho Y, Hongerholt D, Rose J (1997) Lamb wave scattering analysis for reflector characterization. IEEE Trans Ultrason Ferroelectr Freq Contr 44(1):44ᾢ52
Cook RD, Malkus DS, Plesha ME, Witt RJ (2001) Concepts and applications of finite element analysis, 4th edn. Wiley, New York
Cormen TH, Leiserson CE, Rivest RL (1998) Introduction to algorithms. Prentice-Hall, Engle-wood Cliffs
Cornwell P, Doebling SW, Farrar CR (1999) Application of the strain energy damage detection method to plate-like structures. J Sound Vib 224(2):359ᾢ374
Doebling SW, Farrar C, Prime MB, Daniel WS (1996) Damage identification and health monitoring of structural and mechanical systems from changes in their vibration characteristics: a literature review, May 1996, LA-13070-MS
Farin G (2002) Curves and surfaces for CAGD: a practical guide, 5th edn. Academic Press, New York
Flores-Lopez M, Gregory R (2006) Scattering of RayleighᾢLamb waves by a surface breaking crack in an elastic plate. J Acoust Soc Am 1194:2041ᾢ2049
Fox CHJ (1992) The location of defects in structures: a comparison of the use of natural frequency and mode shape data. In: Proceedings of the 10th international modal analysis conference, pp 522ᾢ528
Giurgiutiu V, Bao J, Zhao W (2003) Piezoelectric wafer active sensor embedded ultrasonics in beams and plates. Exp Mech 43(4):428ᾢ449
Giurgiutiu V (2007) Structural health monitoring with piezoelectric wafer active sensors. Academic Press, New York
Hearn G, Testa RB (1991) Modal analysis for damage detection in structures. J Struct Eng 117(10):3042ᾢ3063
Ho YK, Ewins DJ (2000) Numerical evaluation of the damage index, 2000, International workshop on structural health monitoring. Stanford University, Palo Alto, CA, pp 995ᾢ1011
Ho YK, Ewins DJ (2000) On the structural damage identification with mode shapes. European COST F3 conference on system identification and structural health monitoring. Madrid, Spain, pp 677ᾢ686
Kim J-H, Jeon H-S, Lee C-W (1992) Application of the modal assurance criteria for detecting and locating structural faults. In: Proceedings of the 10th international modal analysis conference, pp 1992536ᾢ1992540
Kim JT, Stubbs N (2003) Crack detection in beam type structures using frequency data. J Sound Vib 259(1):146ᾢ160
Ko JM, Wong CW, Lam HF (1994) Damage detection in steel framed structures by vibration measurement approach. In: Proceedings of the 12th international modal analysis conference, pp 280ᾢ 286
Lam HF, Ko JM, Wong CW (1995) Detection of damage location based on sensitivity analysis. In: Proceedings of the 13th international modal analysis conference, pp 1499ᾢ1505
Lestari W (2001) Damage of Composite structures: detection technique, dynamic response and residual strength. Ph.D thesis, Georgia Institute of Technology
Lowe M, Cawley P, Kao J, Diligent O (2000) Prediction and measurement of the reflection of the fundamental anti-symmetric Lamb wave from cracks and notches. In: Thompson DO, Chimenti DE (eds) Review of progress in quantitative nondestructive evaluation, AIP, pp 193ᾢ200
Lowe M, Diligent O (2002) Low-frequency reflection characteristics of the S(0) Lamb wave from a rectangular notch in a plate. J Acoust Soc Am 111(1):64ᾢ74
Lu Y, Ye L, Su Z, Yang C (2008) Quantitative assessment of through-thickness crack size based on Lamb wave scattering in aluminium plates. NDT E Int 411:59ᾢ68
Luo H, Hanagud S (1997) An integral equation for changes in the structural dynamics characteristics of undamaged structures. Int J Solids Struct 34(35ᾢ36):4557ᾢ4579
Michaels TE, Michaels JE (2004) Ultrasonic signal processing for structural health monitoring. In: Thompson DO, Chimenti DE (eds) Review of progress in QNDE, 23. American Institute of Physics
Moser F, Jacobs L, Qu J (1999) Modeling elastic wave propagation in waveguides with the finite element method. NDT E Int 324:225ᾢ234
Pandey AK, Biswas M, Samman MM (1991) Damage detection from changes in curvature mode shapes. J Sound Vib 145(2):321ᾢ332
Raghavan A, Cesnik CES (2007) Review of guided-wave structural health monitoring. Shock Vib Digest 39(2):91ᾢ114
Richardson MH, Mannan MA (1992) Remote detection and location of structural faults using modal parameters. In: Proceedings of the 10th international modal analysis conference, pp 502ᾢ507
Rose JL (2003) A baseline and vision of ultrasonic guided wave inspection potential. J Pressure Vessel Technol 124:273ᾢ282
Rucka M, Wilde K (2006) Application of continuous wavelet transform in vibration based damage detection method for beams and plates. J Sound Vib 297:536ᾢ550
Ruzzene M (2007) Frequency/wavenumber filtering for improved damage visualization. Smart Mater Struct 16(6):2116ᾢ2129
Schulz MJ, Naser AS, Pai PF, Chung J (1998) Locating structural damage using frequency response reference functions. J Intell Mater Syst Struct 9:899ᾢ905
Sharma V, Ruzzene M, Hanagud S (2006) Damage index estimation in beams and plates using laser vibrometry. AIAA J 44:919ᾢ923
Sharma V, Ruzzene M, Hanagud S (2006) Perturbation analysis of damaged plates. Int J Solids Struct 43(16):4648ᾢ4672
Sohn H, Farrar CR, Francois MH, Devin DS, Daniel WS, Nadler BR (2003) A review of structural health monitoring literature: 1996ᾢ2001. Los Alamos National Laboratory Report, LA-13976-MS
Staszewski WJ, Boller C, Tomlinson G (2004) Health monitoring of aerospace structures. Smart Sensors Signal Process. Wiley, New York
Stubbs N, Osegueda R (1990) Global damage detection in solids-experimental verification. Modal analysis. Int J Anal Exp Modal Anal 5(2):81ᾢ97
Stubbs N, Osegueda R (1990) Global non-destructive damage evaluation in solids. Modal analysis. Int J Anal Exp Modal Anals 5(2):67ᾢ79
Wang C, Rose L (2003) Wave reflection and transmission in beams containing delamination and inhomogeneity. J Sound Vib 2644:851ᾢ872
West WM (1984) Illustration of the use of modal assurance criterion to detect structural changes in an orbiter test specimen. In: Proceedings of the air force conference on aircraft structural integrity, pp 1ᾢ6
Yang C, Ye L, Su Z, Bannister M (2006) Some aspects of numerical simulation for Lamb wave propagation in composite laminates. Comp Struct 75(1ᾢ4):267ᾢ275
Yim H, Sohn Y (2000) Numerical simulation and visualization of elastic waves using mass-spring lattice model. IEEE Trans Ultrason Ferroelectr Freq Contr 47(3):549ᾢ558
Yuen MMF (1985) A numerical study of the eigenparameters of a damaged cantilever. J Sound Vib 103:301ᾢ310
Zhao X, Rose J (2003) Boundary element modeling for defect characterization potential in a wave guide. Int J Solids Struct 40(11):2645ᾢ2658
Zhong S, Oyadiji SO (2007) Crack detection in simply supported beams without baseline modal parameters by stationary wavelet transform. Mech Syst Signal Process 21:1853ᾢ1884
Zhou W, Ichchou M, Mencik J (2008) Analysis of wave propagation in cylindrical pipes with local inhomogeneities. J Sound Vib 319(1):335ᾢ354
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Gopalakrishnan, S., Ruzzene, M., Hanagud, S. (2011). Computational Techniques for Damage Detection, Classification and Quantification. In: Computational Techniques for Structural Health Monitoring. Springer Series in Reliability Engineering. Springer, London. https://doi.org/10.1007/978-0-85729-284-1_10
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