A baseline‐free and non‐contact method for detection and imaging of structural damage using 3D laser vibrometry

Aryan, Pouria; Kotousov, Andrei; Ng, Ching‐Tai; Cazzolato, B.

doi:10.1002/stc.1894

Cited by 46 publications

(37 citation statements)

References 32 publications

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“…The theoretical values of the group velocities were calculated using DISPERSE. For the experimentally measured group velocities, one of the transducers was used to excite the Rayleigh wave and the Polytec PSV-400 laser Doppler vibrometer [51] was used to measure the Rayleigh wave signals. The equipment used for the group velocity measurement is shown in Figure 5.…”

Section: Theoretically Calculated and Experimentally Measured Group Vmentioning

confidence: 99%

Debonding detection in CFRP-retrofitted reinforced concrete structures using nonlinear Rayleigh wave

Mohseni

Lam

2019

Mechanical Systems and Signal Processing

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Debonding detection in CFRP-retrofitted reinforced concrete structures using nonlinear Rayleigh waveMechanical Systems and Signal Processing, 2018; 125:245-256 After the embargo period • via non-commercial hosting platforms such as their institutional repository • via commercial sites with which Elsevier has an agreement In all cases accepted manuscripts should:• link to the formal publication via its DOI • bear a CC-BY-NC-ND licensethis is easy to do • if aggregated with other manuscripts, for example in a repository or other site, be shared in alignment with our hosting policy • not be added to or enhanced in any way to appear more like, AbstractThis paper proposed to use nonlinear Rayleigh wave to inspect debonding in carbon fibre reinforced polymer (CFRP) retrofitted reinforced concrete structures. The proposed method requires a network of transducers that are used to sequentially scan the CFRP-retrofitted reinforced concrete structures by transmitting and receiving Rayleigh wave. The nonlinear feature used for the debonding detection is second harmonic generation due to the interaction of Rayleigh wave at the debonding between the CFRP and concrete interfaces. A damage image reconstruction algorithm is proposed to provide a graphical representation for detecting and locating the debonding in the CFRP-retrofitted reinforced concrete structures. In this study, experimental case studies are used to demonstrate the performance of the proposed debonding detection technique. A transducer network with four piezoelectric transducers is used to actuate Rayleigh wave and measure the second harmonic wave in the experiments. The results show that the proposed debonding detection technique is reliable in detecting and locating the debonding in the CFRP-retrofitted reinforced concrete structures.

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Section: Theoretically Calculated and Experimentally Measured Group Vmentioning

confidence: 99%

Debonding detection in CFRP-retrofitted reinforced concrete structures using nonlinear Rayleigh wave

Mohseni

Lam

2019

Mechanical Systems and Signal Processing

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“…In the last two decades, Lamb waves have attracted considerable attention [13][14][15][16][17] in SHM. To date, numerous damage detection techniques using Lamb waves have been developed, for example, time-of-flight approach [18], maximumlikelihood estimation [19], damage imaging [20][21][22], phase array approach [23], model based approach [24,25], time-reversal approach [26] and diffraction tomography [27][28][29]. Each of these techniques provides different levels of assessment for the damages in the structures.…”

Section: Damage Detection Using Lamb Wavementioning

confidence: 99%

Effect of central and non-central frequency components on the quality of damage imaging

Pudipeddi

Kotousov

2017

J Civil Struct Health Monit

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Self-archiving for articles in subscription-based journals Springer journals' policy on preprint sharing. By signing the Copyright Transfer Statement you still retain substantial rights, such as self-archiving: Author(s) are permitted to self-archive a pre-print and an author's accepted manuscript version of their Article. ………. b. An Author's Accepted Manuscript (AAM) is the version accepted for publication in a journal following peer review but prior to copyediting and typesetting that can be made available under the following conditions: (i) Author(s) retain the right to make an AAM of their Article available on their own personal, selfmaintained website immediately on acceptance, (ii) Author(s) retain the right to make an AAM of their Article available for public release on any of the following 12 months after first publication ("Embargo Period"): their employer's internal website; their institutional and/or funder repositories. AAMs may also be deposited in such repositories immediately on acceptance, provided that they are not made publicly available until after the Embargo Period.

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“…beams [5] and rods [6], and two-dimensional (2D) waveguides, e.g. plates [7][8][9][10] and shells [11]. For 2D…”

Section: Damage Detection Using Guided Wavesmentioning

confidence: 99%

A probabilistic approach for quantitative identification of multiple delaminations in laminated composite beams using guided waves

2016

Engineering Structures

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After the embargo period  via non-commercial hosting platforms such as their institutional repository  via commercial sites with which Elsevier has an agreement In all cases accepted manuscripts should:  link to the formal publication via its DOI  bear a CC-BY-NC-ND licensethis is easy to do, click here to find out how  if aggregated with other manuscripts, for example in a repository or other site, be

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A baseline‐free and non‐contact method for detection and imaging of structural damage using 3D laser vibrometry

Cited by 46 publications

References 32 publications

Debonding detection in CFRP-retrofitted reinforced concrete structures using nonlinear Rayleigh wave

Debonding detection in CFRP-retrofitted reinforced concrete structures using nonlinear Rayleigh wave

Effect of central and non-central frequency components on the quality of damage imaging

A probabilistic approach for quantitative identification of multiple delaminations in laminated composite beams using guided waves

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