Abstract
Changes in dynamic response are used to determine the magnitude and location of damage or other imperfections. The CAMOSUC (Change of Mode Surface Curvature) method is compared with earlier methods. Examples of identifying changes of real structures and models are given
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REFERENCES
R. M. Kenley and C. J. Dodds, "Detection of damage by structural response measurement," in: Proc. 12th Offshore Technology Conf., Houston (1980).
R. D. Adams, D. Walton., J. E. Fliteroft, and D. Short, "Vibration testing as a nondestructive test tool for composite materials," in: Proc. Conf. Composite Reliability, Filadelfia (1975).
R. G. Flesh, W. J. Gerasch, and K. Kernbichler, "The significance of system identification for diagnostic dynamic testing of bridges," in: Proc. European Conf. on Structural Dynamics, Bochum (1990).
M. Pirner, "Dynamic response as the identification," in: Proc. Czechoslovak Conf. with Int. Participation[in Czech], Karlovy Vary (1989).
W. B. Krätzig et al. (eds.), "Structural dynamics," in: Proc. European Conf. on Structural Dynamics, Bochum (1990).
H. G. Natke, "Recent trends in system identification," in: Proc. European Conf. on Structural Dynamics, Vol. 1, Bochum (1990).
M. Pirner and Sh. Urushadze, Application of Dynamic Response for the Damages[in Czech], ITAM AS CZ (2001).
A. K. Pandey, M. Biswas, and M. Samman, "Damage detection from changes in curvature mode shapes," J. Sound Vibr., 145(2), 321–332 (1991).
A. K. Pandey and M. Biswas, "Damage detection in structures using changes in flexibility," J. Sound Vibr., 169(1), 3–17 (1994).
M. Biswas, A. K. Pandez, and M. N. Samman, "Diagnostic experimental spectral/modal analysis," Anal. Exper. Modal Anal., 5(1) (1989).
Proc. of DAMAS 97"Structural damage assessment using advanced signal processing procedures," University of Sheffield (1997).
M. Pirner, "Dynamic test of the floor of the store house," Report TZUS No. 1-170/86/080, Prague (1986).
L. Frýba, M. Pirner, and Sh. Urushadze, "Location of damages in concrete structures," in: Proc. 10th Conf. on Computational Methods and Experimental Measurements, WIT Press (2001).
Software ICATS, ver. 6.9 A, Great Britain (1988-2001).
M. Pirner, Bayer, Král, Báta Jr., and Novotný,"Experimental modal analysis of R.C. plates and FE-modeling",Acta Polytechn.35, 87–102 (1995).
V. Koloušek, Dynamics[in Czech], part I, SNTL, Prague (1952).
V. Koloušek, Dynamics[in Czech], part II, SNTL, Prague (1967).
M. Pirner, Dynamics tests of cooling tower," Proc. 4th Int. Conf. on Recent Advances in Structural Dynamics, Southampton (1991).
B. Hauptenbuchner and M. David, "Identification dynamischer Eigenschaften am Beispiel eines hohen Kühlturmes," in: Intemationaler Kongress über, Anwendungen der Mathematik in der Ingenieurwisseuschaften, Weimar (1990).
R. W. Trail Nash, "On the excitation of pure natural mode in aircraft resonance testing," J. Aero/Space Sci. (1958).
K. Zaveri, Modal Analysis of Large Structures-Multiple Exciter System, Brüel & Kjaer (1984).
S. P. Banerjee, "Hyperbolic cooling towers, stresses and imperfections," in: Word Congr. IASS on Shell and Spatial Structures, Madrid (1979).
L. Wenda, C. Yuzhuo, P. Jingsim, and W. Yauggi, "The finite element solution and model tests of free vibration of hyperbolic cooling tower," in: Proc. 2nd Int. Symp. IASS, Bochum (1984).
R. L. Carter, A. R. Robinson, and W. C. Solmolerich, "Free vibrations of hyperboloidal shells of revolution," J. Eng. Mech. Div., Proc. ASCE EM5 (1969).
G. Meschke, H. A. Mang, and P. Kosza, "Finite element analysis of cracked cooling tower shell," J. Struct. Eng., 117(9) (1991).
J. V. Weingarten, "Free vibration of thin cylindrical shells," AIAA J., 2(4) (1964).
W. B. Krätzig, et al., "Structural dynamics," in: Proc. European Conf. on Structural Dynamics, Eurodyn 90, Bochum (1990).
M.-H. H. Shen and J. E. Taylor, "An identification problem for vibrating cracked beams," J. Sound Vibr., 150(3), 457–484 (1990).
H. J. Bathe, E. L. Wilson, and F. E. Peterson, SAP 4-A Structural Analyses Program for Static and Dynamic Response of Linear Systems, Berkely, Coll. Eng. (1973).
O. G. Rzayev and S. D. Akbarov, "Natural vibrations of a composite plate strip with macrocracks," Int. Appl. Mech., 38, No. 10, 1280–1283 (2002).
D. Revuelta and A. Miravete, "Fatigue damage in composite materials," Int. Appl. Mech., 38, No. 2, 121–134 (2002).
V. D. Kubenko and P. S. Koval'chuk, "Resonance vibration of orthotropic shells with geometric imperfects of shell form," in: Dynamics of Structural Members, Vol. 9 of the 12-volume Series Mechanics of Composites [in Russian], A.S.K., Kiev (1999).
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Pirner, M., Urushadze, S. Dynamic Response as a Tool for Damage Identification. International Applied Mechanics 40, 487–505 (2004). https://doi.org/10.1023/B:INAM.0000037296.30452.c8
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DOI: https://doi.org/10.1023/B:INAM.0000037296.30452.c8