Scaling Subtraction Method for Damage Detection in Composite Beams

“…To address the issues related to the proper selection of the excitation frequency, a series of experimental tests have been conducted in this study to investigate the damage detection capabilities of an SSM technique that makes use of a broadband pulse to excite the structure in place of a stationary harmonic signal. Preliminary tests recently conducted by this approach [24] provided promising indications and suggest further investigations on the efficacy of the pulse excitation strategy. A testing methodology employing an impulsive signal to excite the structure offers the advantage of not requiring the preliminary choice of the frequency of the harmonic excitation, thus eliminating the need for the characterization of the modal response of the structure and overcoming the risk of selecting an interrogating frequency with a low damage detection sensitivity.…”

“…Previous investigations by the authors on the application of the SSM technique for damage detection in composite materials showed that the sensitivity of the method depends on the frequency of the harmonic excitation [23,24]. With the latter usually chosen among the resonance frequencies of the system, a preliminary modal analysis for the identification of the natural frequencies of the system is, therefore, needed.…”

“…Recently, it was shown that the SSM can be effective in assessing the presence of impact damage in composite laminates [22][23][24]. The sensitivity of the method was found, however, to strongly depend on the excitation frequency.…”

“…A first attempt to apply the SSM to detect barely visible impact damage in composite beams excited by impulsive loads was presented in [24]. In that study, an extension of the SSM, based on damage indicators defined in the frequency domain, was proposed.…”

“…In that study, an extension of the SSM, based on damage indicators defined in the frequency domain, was proposed. Encouraged by the promising preliminary results found in [24], the present paper aims to carry out a more detailed investigation of the possibility of adopting broadband impulsive excitations and damage indicators based on the analysis of signal magnitudes at selected frequencies, to make the SSM more effective for the detection of low-velocity impact damage in laminated composite materials.…”

Impact Damage Detection in Composite Beams by Analysis of Non-Linearity under Pulse Excitation

“…To address the issues related to the proper selection of the excitation frequency, a series of experimental tests have been conducted in this study to investigate the damage detection capabilities of an SSM technique that makes use of a broadband pulse to excite the structure in place of a stationary harmonic signal. Preliminary tests recently conducted by this approach [24] provided promising indications and suggest further investigations on the efficacy of the pulse excitation strategy. A testing methodology employing an impulsive signal to excite the structure offers the advantage of not requiring the preliminary choice of the frequency of the harmonic excitation, thus eliminating the need for the characterization of the modal response of the structure and overcoming the risk of selecting an interrogating frequency with a low damage detection sensitivity.…”

“…Previous investigations by the authors on the application of the SSM technique for damage detection in composite materials showed that the sensitivity of the method depends on the frequency of the harmonic excitation [23,24]. With the latter usually chosen among the resonance frequencies of the system, a preliminary modal analysis for the identification of the natural frequencies of the system is, therefore, needed.…”

“…Recently, it was shown that the SSM can be effective in assessing the presence of impact damage in composite laminates [22][23][24]. The sensitivity of the method was found, however, to strongly depend on the excitation frequency.…”

“…A first attempt to apply the SSM to detect barely visible impact damage in composite beams excited by impulsive loads was presented in [24]. In that study, an extension of the SSM, based on damage indicators defined in the frequency domain, was proposed.…”

“…In that study, an extension of the SSM, based on damage indicators defined in the frequency domain, was proposed. Encouraged by the promising preliminary results found in [24], the present paper aims to carry out a more detailed investigation of the possibility of adopting broadband impulsive excitations and damage indicators based on the analysis of signal magnitudes at selected frequencies, to make the SSM more effective for the detection of low-velocity impact damage in laminated composite materials.…”

Impact Damage Detection in Composite Beams by Analysis of Non-Linearity under Pulse Excitation

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The Detection of Local Impact Fatigue Damage on Metal Materials by Combining Nonlinear Acoustic Modulation and Coda Wave Interferometry