Change in mode shape nodes of multiple cracked bar: II. The numerical analysis

Khiem, Nguyen Tien; Toan, Le Khanh; Khue, N. T. L.

doi:10.15625/0866-7136/35/4/2487

Cited by 3 publications

(3 citation statements)

References 2 publications

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“…As zeros of FRF, antiresonant frequencies of a multiple cracked bar are seeking as follows. General expression of FRF for multiple cracked bars has been obtained by Khiem et al [12,13] in the form…”

Section: Antiresonant Frequency Equation For Multiple Cracked Barsmentioning

confidence: 99%

“…However, the study showed that unique solution of the crack detection cannot be found by using only natural frequencies. Some efforts have been made to solve the problem by encompassing other vibration characteristics such mode shapes [11][12][13] or frequency response function [14], but it was successful when antiresonant frequencies have been employed [15][16][17]. Nevertheless, using additionally the c 2019 Vietnam Academy of Science and Technology antiresonant frequencies for crack detection in bar enables to obtain unique solution of the crack detection problem only for free end bar.…”

Section: Introductionmentioning

confidence: 99%

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Resonant and antiresonant frequencies of multiple cracked bar

Lien

Khiem

2019

Vietnam J. Mech.

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The natural frequencies or related resonant frequencies have been widely used for crack detection in structures by the vibration-based technique. However, antiresonant frequencies, the zeros of frequency response function, are less involved to use for the problem because they have not been thoroughly studied. The present paper addresses analysis of antiresonant frequencies of multiple cracked bar in comparison with the resonant ones. First, exact characteristic equations for the resonant and antiresonant frequencies of bar with arbitrary number of cracks are conducted in a new form that is explicitly expressed in term of crack severities. Then, the conducted equations are employed for analysis of variation of resonant and antiresonant frequencies versus crack position and depth. Numerical results show that antiresonant frequencies are indeed useful indicators for crack detection in bar mutually with the resonant one

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Section: Antiresonant Frequency Equation For Multiple Cracked Barsmentioning

confidence: 99%

Section: Introductionmentioning

confidence: 99%

Resonant and antiresonant frequencies of multiple cracked bar

Lien

Khiem

2019

Vietnam J. Mech.

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“…Determination of dynamic characteristics of cracked FGM beam can be obtained by using analytical [3][4][5][6][7][8][9][10][11], Galerkin's semi-analytical [12], finite element method (FEM) and dynamic stiffness method (DSM). The FEM has been developed and employed for modal analysis and identification of FGM beams [13][14][15][16].…”

Section: Introductionmentioning

confidence: 99%

Crack identification in multiple cracked beams made of functionally graded material by using stationary wavelet transform of mode shapes

Lien

Duc²

2019

Vietnam J. Mech.

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This paper presents crack identification in multiple cracked beams made of functionally graded material (FGM) by using stationary wavelet transform (SWT) of mode shapes and taking into account influence of Gaussian noise. Mode shapes are obtained from multiple cracked FGM beam element and spring model of cracks. The theoretical development was illustrated and validated by numerical examples. The investigated results show that crack identification method by using SWT of mode shapes is efficient and realizable.

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