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Journal of Nondestructive Evaluation

Erschienen in:

01.09.2018

Detection and Characterization of Randomly Distributed Micro-cracks in Elastic Solids by One-Way Collinear Mixing Method

verfasst von: Youxuan Zhao, Yongmei Xu, Zimu Chen, Peng Cao, Ning Hu

Erschienen in: Journal of Nondestructive Evaluation | Ausgabe 3/2018

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Abstract

Numerical simulations on the propagation of bulk waves in elastic solids with randomly distributed micro-cracks by the one-way collinear mixing method are performed to investigate the behavior of the resonant wave. The results show that the resonant wave can be generated due to the effect of micro-cracks, and the position and the size of micro-crack zone can be detected by the time signal of the resonant wave. Based on statistical analysis from numerous results of random micro-crack models, we find that the acoustic nonlinear parameter increases linearly with the micro-crack density and the size of micro-crack zone, which is also related to the frequency of resonant wave and friction coefficient of micro-crack surfaces. This study numerically reveals that the one way mixing method can be employed to quantitatively identify and characterize micro-cracks in elastic solids.

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Cantrell, J.H.: Substructural organization, dislocation plasticity and harmonic generation in cyclically stressed wavy slip metals. Proc. R. Soc. Lond. 460, 757–780 (2004)CrossRef

Meyendorf, N.G., et al.: Thermo-acoustic fatigue characterization. Ultrasonics 40(1), 427–434 (2002)CrossRef

Rokhlin, S., Kim, J.-Y.: In situ ultrasonic monitoring of surface fatigue crack initiation and growth from surface cavity. Int. J. Fatigue 25(1), 41–49 (2003)CrossRef

Morris, W.L., Buck, O., Inman, R.V.: Acoustic harmonic generation due to fatigue damage in high-strength aluminum. J. Appl. Phys. 50(11), 6737–6741 (1979)CrossRef

Jiao, J., et al.: Micro-crack detection using a collinear wave mixing technique. NDT E Int. 62, 122–129 (2014)CrossRef

Lee, T.H., Jhang, K.Y.: Experimental investigation of nonlinear acoustic effect at crack. NDT E Int. 42(8), 757–764 (2009)CrossRef

Wan, X. et al.: FEM simulation of nonlinear Lamb waves for detecting a micro-crack in a metallic plate. In: Engineering Asset Management-Systems, Professional Practices and Certification. Springer. pp. 1561–1569 (2015)

Yost, W.T., Cantrell, J.H.: Materials characterization using acoustic nonlinearity parameters and harmonic generation: engineering materials. In: Review of Progress in Quantitative Nondestructive Evaluation. Springer. pp. 1669–1676 (1990)CrossRef

Zeitvogel, D.T., et al.: Characterization of stress corrosion cracking in carbon steel using nonlinear Rayleigh surface waves. NDT E Int. 62, 144–152 (2014)CrossRef

10.

Kazakov, V.V., Sutin, A.M.: Pulsed sounding of cracks with the use of the modulation of ultrasound by vibrations. Acoust. Phys. 47(3), 308–312 (2001)CrossRef

11.

Fierro, G.P.M., et al.: Nonlinear ultrasound modelling and validation of fatigue damage. J. Sound Vib. 343, 121–130 (2015)CrossRef

12.

Nagy, P.B.: Fatigue damage assessment by nonlinear ultrasonic materials characterization. Ultrasonics 36(1–5), 375–381 (1998)CrossRef

13.

Hong, M., et al.: Modeling nonlinearities of ultrasonic waves for fatigue damage characterization: theory, simulation, and experimental validation. Ultrasonics 54(3), 770–778 (2014)CrossRef

14.

Castaings, M., Le Clezio, E., Hosten, B.: Modal decomposition method for modeling the interaction of Lamb waves with cracks. J. Acoust. Soc. Am. 112(6), 2567–2582 (2002)CrossRef

15.

Solodov, I.Y., Korshak, B.A.: Instability, chaos, and “memory” in acoustic-wave–crack interaction. Phys. Rev. Lett. 88(1), 014303 (2001)CrossRef

16.

Croxford, A.J., et al.: The use of non-collinear mixing for nonlinear ultrasonic detection of plasticity and fatigue. J. Acoust. Soc. Am. 126(5), 117–122 (2009)CrossRef

17.

Demčenko, A., Mainini, L., Korneev, V.: A study of the noncollinear ultrasonic-wave-mixing technique under imperfect resonance conditions. Ultrasonics 57, 179–189 (2015)CrossRef

18.

Chen, Z., et al.: Mixing of collinear plane wave pulses in elastic solids with quadratic nonlinearity. J. Acoust. Soc. Am. 136(5), 2389–2404 (2014)CrossRef

19.

Tang, G.: Wave Propagation in Nonlinear Media and Its Applications in Nondestructive Damage Assessment of Metallic Materials. Northwestern University, (2013)

20.

Zhao, Y., et al.: Experiment and FEM study of one-way mixing of elastic waves with quadratic nonlinearity. NDT E Int. 72, 33–40 (2015)CrossRef

21.

Liu, M., et al.: Measuring acoustic nonlinearity parameter using collinear wave mixing. J. Appl. Phys. 112(2), 024908 (2012)CrossRef

22.

Tang, G., et al.: Detecting plastic strain distribution by a nonlinear wave mixing method. In: Chimenti, D.E. (ed.) Review of Progress in Quantitative Nondestructive Evaluation, vol. 32. American Institute of Physics, New York (2013)

23.

Tang, G., et al.: Detecting localized plastic strain by a scanning collinear wave mixing method. J. Nondestr. Eval. 33(2), 196–204 (2014)CrossRef

24.

Matlack, K., et al.: Review of second harmonic generation measurement techniques for material state determination in metals. J Nondestruct. Eval. 34(1), 1–23 (2014)

25.

Matlack, K.H., et al.: Review of second harmonic generation measurement techniques for material state determination in metals. J. Nondestr. Eval. 34(1), 273 (2015)CrossRef

26.

Chen, J., et al.: Experimental characterization of granite damage using nonlinear ultrasonic techniques. NDT E Int. 67, 10–16 (2014)CrossRef

27.

Li, W., Cho, Y., Achenbach, J.D.: Detection of thermal fatigue in composites by second harmonic Lamb waves. Smart Mater. Struct. 21(8), 085019 (2012)CrossRef

28.

Yim, H.J., et al.: Nonlinear ultrasonic method to evaluate residual mechanical properties of thermally damaged concrete. ACI Mater. J. 111(4), 399–409 (2014)

29.

Deng, M., Xiang, Y., Liu, L.: Time-domain analysis and experimental examination of cumulative second-harmonic generation by primary Lamb wave propagation. J. Appl. Phys. 109(11), 113525 (2011)CrossRef

30.

Müller, M.F., et al.: Characteristics of second harmonic generation of Lamb waves in nonlinear elastic plates. J. Acoust. Soc. Am. 127(4), 2141–2152 (2010)CrossRef

31.

Zhao, Y., et al.: Frequency-dependent tensile and compressive effective moduli of elastic solids with randomly distributed two-dimensional microcracks. J. Appl. Mech. 82(8), 081006 (2015)CrossRef

32.

Zhao, Y., et al.: Frequency-dependent tensile and compressive effective moduli of elastic solids with distributed penny-shaped microcracks. Acta Mech. 227(2), 399–419 (2016)MathSciNetCrossRef

33.

Zhao, Y. et al.: A micromechanics model for the acoustic nonlinearity parameter in solids with distributed microcracks. In: 42nd Annual Review of Progress in Quantitative Nondestructive Evaluation: Incorporating the 6th European-American Workshop on Reliability of NDE. AIP Publishing (2016)

34.

Eriksson, A.S., Boström, A., Datta, S.K.: Ultrasonic wave propagation through a cracked solid. Wave Motion 22(3), 297–310 (1995)CrossRef

35.

Jinno, K., et al.: Analysis on nonlinear ultrasonic images of vertical closed cracks by damped double node model. Mater. Trans. 55(7), 1017–1023 (2014)CrossRef

36.

Riviere, J., et al.: Dynamic acousto-elasticity in a fatigue-cracked sample. J. Nondestr. Eval. 33(2), 216–225 (2014)CrossRef

37.

Biwa, S., Nakajima, S., Ohno, N.: On the acoustic nonlinearity of solid-solid contact with pressure-dependent interface stiffness. J. Appl. Mech. 71(4), 508–515 (2004)CrossRef

38.

Biwa, S., Hiraiwa, S., Matsumoto, E.: Experimental and theoretical study of harmonic generation at contacting interface. Ultrasonics 44, e1319–e1322 (2006)CrossRef

39.

Jiao, J., et al.: Nonlinear Lamb wave-mixing technique for micro-crack detection in plates. NDT E Int. 85, 63–71 (2016)

40.

Wan, X., et al.: Numerical simulation of nonlinear lamb waves used in a thin plate for detecting buried micro-cracks. Sensors 14(5), 8528–8546 (2014)CrossRef

41.

Nazarov, V.E., Sutin, A.M.: Nonlinear elastic constants of solids with cracks. J. Acoust. Soc. Am. 102(6), 3349–3354 (1997)CrossRef

42.

Zhao, Y., et al.: Generation mechanism of nonlinear ultrasonic Lamb waves in thin plates with randomly distributed micro-cracks. Ultrasonics 79, 60–67 (2017)CrossRef

43.

Li, F., et al.: Mixing of ultrasonic Lamb waves in thin plates with quadratic nonlinearity. Ultrasonics 87, 33–43 (2018)CrossRef

44.

Gross, D., Zhang, C.: Wave propagation in damaged solids. Int. J. Solids Struct. 29(14), 1763–1779 (1992)CrossRef

Titel: Detection and Characterization of Randomly Distributed Micro-cracks in Elastic Solids by One-Way Collinear Mixing Method
verfasst von: Youxuan Zhao
Yongmei Xu
Zimu Chen
Peng Cao
Ning Hu
Publikationsdatum: 01.09.2018
Verlag: Springer US
Erschienen in: Journal of Nondestructive Evaluation / Ausgabe 3/2018
Print ISSN: 0195-9298
Elektronische ISSN: 1573-4862
DOI: https://doi.org/10.1007/s10921-018-0505-1

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