Structural damage detection in cracked reinforced concrete by dynamic system identification

J. M. Ndambi; J. Vantomme; J. De Visscher; W. P. De Wilde; B. Peeters; M. A. Wahab; G. De Roeck

Structural damage detection in cracked reinforced concrete by dynamic system identification

J. M. Ndambi, J. Vantomme, J. De Visscher, W. P. De Wilde, B. Peeters, M. A. Wahab, G. De Roeck

Research output: Chapter in Book/Report/Conference proceeding › Conference contribution › peer-review

Abstract

This paper presents experiments results from vibration of reinforced concrete beams subjected to progressive cracking. Experiments are made on three reinforced concrete beams of 6 meters length. Cracks are artificially induced in these beams by static loading test in a certain number of load-steps. After each static-load step, a complete Experimental Modal Analysis is performed in order to determine all the dynamic characteristics of the beams. Their evolution allows to draw conclusions about the suitability of dynamic and static techniques. This investigation is the first step in the development of the dynamic system characteristics (DSC's) based technic for monitoring damage in large concrete structure. The influence of progressive cracking on eigenfrequencies, modal damping ratios and mode shapes is investigated. The nonlinearity behaviour of the beams is investigated. The results show that progressive cracking of the beams results in measurable frequency shift. The evolution of modal damping ratios is also commented.

Original language	English
Title of host publication	Proceedings of the 23rd International Conference on Noise and Vibration Engineering, ISMA
Pages	853-859
Number of pages	7
Publication status	Published - 1998
Event	Proceedings of the 23rd International Conference on Noise and Vibration Engineering, ISMA - Leuven, Belgium Duration: 16 Sept 1998 → 18 Sept 1998

Publication series

Name	Proceedings of the 23rd International Conference on Noise and Vibration Engineering, ISMA

Conference

Conference	Proceedings of the 23rd International Conference on Noise and Vibration Engineering, ISMA
Country/Territory	Belgium
City	Leuven
Period	16/09/98 → 18/09/98

Cite this

Ndambi, J. M., Vantomme, J., De Visscher, J., De Wilde, W. P., Peeters, B., Wahab, M. A., & De Roeck, G. (1998). Structural damage detection in cracked reinforced concrete by dynamic system identification. In Proceedings of the 23rd International Conference on Noise and Vibration Engineering, ISMA (pp. 853-859). (Proceedings of the 23rd International Conference on Noise and Vibration Engineering, ISMA).

@inproceedings{34625259fdfa4d559236770c77c72879,

title = "Structural damage detection in cracked reinforced concrete by dynamic system identification",

abstract = "This paper presents experiments results from vibration of reinforced concrete beams subjected to progressive cracking. Experiments are made on three reinforced concrete beams of 6 meters length. Cracks are artificially induced in these beams by static loading test in a certain number of load-steps. After each static-load step, a complete Experimental Modal Analysis is performed in order to determine all the dynamic characteristics of the beams. Their evolution allows to draw conclusions about the suitability of dynamic and static techniques. This investigation is the first step in the development of the dynamic system characteristics (DSC's) based technic for monitoring damage in large concrete structure. The influence of progressive cracking on eigenfrequencies, modal damping ratios and mode shapes is investigated. The nonlinearity behaviour of the beams is investigated. The results show that progressive cracking of the beams results in measurable frequency shift. The evolution of modal damping ratios is also commented.",

author = "Ndambi, {J. M.} and J. Vantomme and {De Visscher}, J. and {De Wilde}, {W. P.} and B. Peeters and Wahab, {M. A.} and {De Roeck}, G.",

year = "1998",

language = "English",

isbn = "9073802679",

series = "Proceedings of the 23rd International Conference on Noise and Vibration Engineering, ISMA",

pages = "853--859",

booktitle = "Proceedings of the 23rd International Conference on Noise and Vibration Engineering, ISMA",

note = "Proceedings of the 23rd International Conference on Noise and Vibration Engineering, ISMA ; Conference date: 16-09-1998 Through 18-09-1998",

}

Ndambi, JM, Vantomme, J, De Visscher, J, De Wilde, WP, Peeters, B, Wahab, MA & De Roeck, G 1998, Structural damage detection in cracked reinforced concrete by dynamic system identification. in Proceedings of the 23rd International Conference on Noise and Vibration Engineering, ISMA. Proceedings of the 23rd International Conference on Noise and Vibration Engineering, ISMA, pp. 853-859, Proceedings of the 23rd International Conference on Noise and Vibration Engineering, ISMA, Leuven, Belgium, 16/09/98.

Structural damage detection in cracked reinforced concrete by dynamic system identification. / Ndambi, J. M.; Vantomme, J.; De Visscher, J. et al.
Proceedings of the 23rd International Conference on Noise and Vibration Engineering, ISMA. 1998. p. 853-859 (Proceedings of the 23rd International Conference on Noise and Vibration Engineering, ISMA).

Research output: Chapter in Book/Report/Conference proceeding › Conference contribution › peer-review

TY - GEN

T1 - Structural damage detection in cracked reinforced concrete by dynamic system identification

AU - Ndambi, J. M.

AU - Vantomme, J.

AU - De Visscher, J.

AU - De Wilde, W. P.

AU - Peeters, B.

AU - Wahab, M. A.

AU - De Roeck, G.

PY - 1998

Y1 - 1998

N2 - This paper presents experiments results from vibration of reinforced concrete beams subjected to progressive cracking. Experiments are made on three reinforced concrete beams of 6 meters length. Cracks are artificially induced in these beams by static loading test in a certain number of load-steps. After each static-load step, a complete Experimental Modal Analysis is performed in order to determine all the dynamic characteristics of the beams. Their evolution allows to draw conclusions about the suitability of dynamic and static techniques. This investigation is the first step in the development of the dynamic system characteristics (DSC's) based technic for monitoring damage in large concrete structure. The influence of progressive cracking on eigenfrequencies, modal damping ratios and mode shapes is investigated. The nonlinearity behaviour of the beams is investigated. The results show that progressive cracking of the beams results in measurable frequency shift. The evolution of modal damping ratios is also commented.

AB - This paper presents experiments results from vibration of reinforced concrete beams subjected to progressive cracking. Experiments are made on three reinforced concrete beams of 6 meters length. Cracks are artificially induced in these beams by static loading test in a certain number of load-steps. After each static-load step, a complete Experimental Modal Analysis is performed in order to determine all the dynamic characteristics of the beams. Their evolution allows to draw conclusions about the suitability of dynamic and static techniques. This investigation is the first step in the development of the dynamic system characteristics (DSC's) based technic for monitoring damage in large concrete structure. The influence of progressive cracking on eigenfrequencies, modal damping ratios and mode shapes is investigated. The nonlinearity behaviour of the beams is investigated. The results show that progressive cracking of the beams results in measurable frequency shift. The evolution of modal damping ratios is also commented.

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BT - Proceedings of the 23rd International Conference on Noise and Vibration Engineering, ISMA

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Ndambi JM, Vantomme J, De Visscher J, De Wilde WP, Peeters B, Wahab MA et al. Structural damage detection in cracked reinforced concrete by dynamic system identification. In Proceedings of the 23rd International Conference on Noise and Vibration Engineering, ISMA. 1998. p. 853-859. (Proceedings of the 23rd International Conference on Noise and Vibration Engineering, ISMA).

Structural damage detection in cracked reinforced concrete by dynamic system identification

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