Calibration and Evaluation of Nonlinear Ultrasonic Transmission Measurements of Thin‐Bonded Interfaces

Hirsekorn, S.; Koka, Ashraf; Kurzenhäuser, S.; Arnold, W.

doi:10.1002/3527607307.ch25

Cited by 9 publications

(3 citation statements)

References 12 publications

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“…However, it is well-known from literature that nonlinear wave phenomena show an increased sensitivity to early stage damage features as well as to certain classes of contact defects [42][43][44][45]. For this reason, the present authors are currently upgrading the U(B)PS methodology towards the nonlinear regime.…”

Section: Nonlinear U(b)psmentioning

confidence: 99%

The Ultrasonic Polar Scan for Composite Characterization and Damage Assessment: Past, Present and Future

et al. 2016

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Abstract:In the early 1980's, the ultrasonic polar scan (UPS) technique was developed to assess the fiber direction of composites in a nondestructive way. In spite of the recognition by several researchers as being a sophisticated and promising methodology for nondestructive testing (NDT) and materials science, little advance was made during the following 30 years. Recently however, the UPS technique experienced a strong revival and various modifications to the original UPS setup have been successfully implemented. This revival has exposed several powerful capabilities and interesting applications of the UPS technique for material characterization and damage assessment. This paper gives a short historical overview of the UPS technique for characterizing and inspecting (damaged) fiber-reinforced plastics. In addition, a few future research lines are given, which will further expand the applicability and potential of the UPS method to a broader range of (damaged) materials, bringing the UPS technique to the next level of maturity.

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Section: Nonlinear U(b)psmentioning

confidence: 99%

The Ultrasonic Polar Scan for Composite Characterization and Damage Assessment: Past, Present and Future

et al. 2016

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“…5 The higher harmonic generation method measures the harmonic content of a single ultrasonic wave. 6 The technique has been applied to various materials including composites [7][8][9] and to measure fatigue. 10,11 More recent methods include nonlinear time reversal 12-14 and nonlinear reverberation.…”

Section: Introductionmentioning

confidence: 99%

Measurement of material nonlinearity using surface acoustic wave parametric interaction and laser ultrasonics

Stratoudaki

Ellwood

Sharples

et al. 2011

The Journal of the Acoustical Society of America

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A dual frequency mixing technique has been developed for measuring velocity changes caused by material nonlinearity. The technique is based on the parametric interaction between two surface acoustic waves (SAWs): The low frequency pump SAW generated by a transducer and the high frequency probe SAW generated and detected using laser ultrasonics. The pump SAW stresses the material under the probe SAW. The stress (typically <5 MPa) is controlled by varying the timing between the pump and probe waves. The nonlinear interaction is measured as a phase modulation of the probe SAW and equated to a velocity change. The velocity-stress relationship is used as a measure of material nonlinearity. Experiments were conducted to observe the pump-probe interaction by changing the pump frequency and compare the nonlinear response of aluminum and fused silica. Experiments showed these two materials had opposite nonlinear responses, consistent with previously published data. The technique could be applied to life-time predictions of engineered components by measuring changes in nonlinear response caused by fatigue.

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“…The two remarkable peaks in the distortion factor with subsequent decrease may be caused by a larger delamination which acts as a source of non-classical nonlinearity when it starts to open. Partially open delaminations are known to be strong sources of nonlinearity in composite materials [6,7,8]. With increasing deterioration of the sample the delaminations open completely and become strong classical reflectors for ultrasound exhibiting low nonlinearity.…”

mentioning

confidence: 99%

Nonlinear ultrasonic testing of carbon fibre reinforced plastics in the very high cycle fatigue regime

Rabe¹,

Helfen²,

Weikert³

et al. 2012

Proceedings of Meetings on Acoustics

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Calibration and Evaluation of Nonlinear Ultrasonic Transmission Measurements of Thin‐Bonded Interfaces

Cited by 9 publications

References 12 publications

The Ultrasonic Polar Scan for Composite Characterization and Damage Assessment: Past, Present and Future

The Ultrasonic Polar Scan for Composite Characterization and Damage Assessment: Past, Present and Future

Measurement of material nonlinearity using surface acoustic wave parametric interaction and laser ultrasonics

Nonlinear ultrasonic testing of carbon fibre reinforced plastics in the very high cycle fatigue regime

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