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Journal of Nondestructive Evaluation

Erschienen in:

01.06.2017

Experimental Characterization of Impact Fatigue Damage in an Adhesive Bonding Using the Second Harmonics

verfasst von: Guoshuang Shui, Xian Song, Jingyu Xi, Yue-Sheng Wang

Erschienen in: Journal of Nondestructive Evaluation | Ausgabe 2/2017

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Abstract

An adhesive bonding is widely used in various industrial applications. In this paper, an application of non-destructive evaluation (NDE) technique based on the second harmonics for experimental characterization of impact fatigue damage in an adhesive bonding is presented. Adhesively bonded specimens made from AZ31 magnesium–aluminum alloy were firstly subjected to impact fatigue loading; the ultrasonic harmonics generated due to impact fatigue damage within the adhesive layer were thereafter measured. The acoustic nonlinearity parameter (ANP) based on the fundamental and second harmonics was thus obtained. The experimental results show that the normalized ANP, which is an indicator of material properties, increases with the impact fatigue life. Further discussion based on a theoretical model with different interfacial compression and tension stiffness was also conducted. The experimental results consist well with the theoretical ones. The results in this paper demonstrate that the nonlinear ultrasonic method based on the second harmonic generation technique can be used to characterize the impact fatigue damage in an adhesive bonding.

Vorheriger Artikel Assessment of Quantitative and Qualitative Characteristics of Ultrasonic Guided Wave Phase Velocity Measurement Technique

Nächster Artikel A Novel Non-destructive Testing Method by Measuring the Change Rate of Magnetic Flux Leakage

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Maeva, E., Severina, I., Bondarenko, S., Chapman, G., O’Neill, B., Severin, F., Maev, R.G.: Acoustical methods for the investigation of adhesively bonded structures: a review. Can. J. Phys. 82(12), 981–1025 (2004)CrossRef

Her, S., Lin, Y.: Assessment of adhesive bond strength using the ultrasonic technique. J. Adhes. 90(5–6), 545–554 (2014)CrossRef

Rokhlin, S.I., Xie, B., Baltazar, A.: Quantitative ultrasonic characterization of environmental degradation of adhesive bonds. J. Adhes. Sci. Technol. 18(3), 327–359 (2004)CrossRef

Ren, B., Lissenden, C.J.: Ultrasonic guided wave inspection of adhesive bonds between composite laminates. Int. J. Adhes. Adhes. 45, 59–68 (2013)CrossRef

Aymerich, F., Staszewski, W.J.: Impact damage detection in composite laminates using nonlinear acoustics. Compos. Part A 41(9), 1084–1092 (2010)CrossRef

Cantrell, J.H., Yost, W.T.: Acoustic harmonic generation from fatigue-induced dislocation dipoles. Philos Mag. A 69(2), 315–326 (1994)CrossRef

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

Matlack, K.H., Wall, J.J., Kim, J., Qu, J., Jacobs, L.J., Viehrig, H.: Evaluation of radiation damage using nonlinear ultrasound. J. Appl. Phys. 111(5), 54911 (2012)CrossRef

Shui, G., Wang, Y., Gong, F.: Evaluation of plastic damage for metallic materials under tensile load using nonlinear longitudinal waves. NDT&E Int. 55, 1–8 (2013)CrossRef

10.

Kober, J., Prevorovsky, Z.: Theoretical investigation of nonlinear ultrasonic wave modulation spectroscopy at crack interface. NDT&E Int. 61, 10–15 (2014)CrossRef

11.

Zheng, Y., Maev, R.G., Solodov, I.Y.: Nonlinear acoustic applications for material characterization: a review. Can. J. Phys. 77(12), 927–967 (1999)CrossRef

12.

Escobar-Ruiz, E., Ruiz, A., Hassan, W., Wright, D.C., Collison, I.J., Cawley, P., Nagy, P.B.: Non-linear ultrasonic NDE of titanium diffusion bonds. J. Nondestruct. Eval. 33(2), 187–195 (2014)CrossRef

13.

Li, W., Cho, Y.: Thermal fatigue damage assessment in an isotropic pipe using nonlinear ultrasonic guided waves. Exp. Mech. 54(8), 1309–1318 (2014)CrossRef

14.

Zeitvogel, D.T., Matlack, K.H., Kim, J., Jacobs, L.J., Singh, P.M., Qu, J.: Characterization of stress corrosion cracking in carbon steel using nonlinear Rayleigh surface waves. NDT&E Int. 62, 144–152 (2014)CrossRef

15.

Zhang, J., Xuan, F.: Fatigue damage evaluation of austenitic stainless steel using nonlinear ultrasonic waves in low cycle regime. J. Appl. Phys. 115(20), 204906 (2014)CrossRef

16.

Chen J., Ren J., Yin T.: Nondestructive evaluation of notched cracks in mortars by nonlinear ultrasonic technique. Nondestruct. Testing Eval., 1–13(2015)

17.

Shui, G., Li, C., Yao, K.: Non-destructive evaluation of the damage of ferromagnetic steel using metal magnetic memory and nonlinear ultrasonic method. Int. J. Appl. Electromagn. 47(4), 1023–1038 (2015)

18.

Achenbach, J.D., Parikh, O.K.: Ultrasonic analysis of nonlinear response and strength of adhesive bonds. J. Adhes. Sci. Technol. 5(8), 601–618 (1991)CrossRef

19.

Delsanto, P.P., Gliozzi, A.S., Hirsekorn, M., Nobili, M.: A 2D spring model for the simulation of ultrasonic wave propagation in nonlinear hysteretic media. Ultrasonics 44(3), 279–286 (2006)CrossRef

20.

Vanaverbeke, S., Van Den Abeele, K.: Two-dimensional modeling of wave propagation in materials with hysteretic nonlinearity. J. Acoust. Soc. Am. 122(1), 58–72 (2007)CrossRef

21.

Zhang, Z., Nagy, P.B., Hassan, W.: Analytical and numerical modeling of non-collinear shear wave mixing at an imperfect interface. Ultrasonics 65, 165–176 (2016)CrossRef

22.

Kawashima, K., Murase, M., Yamada, R., Matsushima, M., Uematsu, M., Fujita, F.: Nonlinear ultrasonic imaging of imperfectly bonded interfaces. Ultrasonics 44, e1329–e1333 (2006)CrossRef

23.

Polimeno, U., Meo, M., Almond, D.P., Angioni, S.L.: Detecting low velocity impact damage in composite plate using nonlinear acoustic/ultrasound methods. Appl. Compos. Mater. 17(5), 481–488 (2010)CrossRef

24.

Klepka, A., Pieczonka, L., Staszewski, W.J., Aymerich, F.: Impact damage detection in laminated composites by non-linear vibro-acoustic wave modulations. Compos. Part B 65, 99–108 (2014)CrossRef

25.

de Moraisa, W.A., Monteirob, S.N., D’Almeida, J.R.M.: Evaluation of repeated low energy impact damage in carbon–epoxy composite materials. Compos. Mater. 67(3), 307–315 (2005)

26.

Casas-Rodriguez, J.P., Ashcroft, I.A., Silberschmidt, V.V.: Damage evolution in adhesive joints subjected to impact fatigue. J. Sound Vib. 308(3), 467–478 (2007)CrossRef

27.

David-West, O.S., Nash, D.H., Banks, W.M.: An experimental study of damage accumulation in balanced CFRP laminates due to repeated impact. Compos. Struct. 83(3), 247–258 (2008)CrossRef

28.

Azouaoui, K., Azari, Z., Pluvinage, G.: Evaluation of impact fatigue damage in glass/epoxy composite laminate. Int. J. Fatigue 32(2), 443–452 (2010)CrossRef

29.

Pang, J., Du, Y., Wu, K., Hu, P., Li, W.: Fatigue analysis of adhesive joints under vibration loading. J. Adhes. 89(12), 899–920 (2016)CrossRef

30.

Casas-Rodriguez, J.P., Ashcroft, I.A., Silberschmidt, V.V.: Damage in adhesively bonded CFRP joints: sinusoidal and impact-fatigue. Compos. Sci. Technol. 68(13), 2663–2670 (2008)CrossRef

31.

Shui, G., Wang, Y., Huang, P., Qu, J.: Nonlinear ultrasonic evaluation of the fatigue damage of adhesive joints. NDT&E Int. 70, 9–15 (2015)CrossRef

32.

Yan, D., Drinkwater, B.W., Neild, S.A.: Measurement of the ultrasonic nonlinearity of kissing bonds in adhesive joints. NDT&E Int. 42(5), 459–466 (2009)CrossRef

33.

Yuan, M., Lee, T., Kang, T., Zhang, J., Song, S., Kim, H.: Absolute measurement of ultrasonic non-linearity parameter at contact interface. Nondestruct. Testing Eval. 30(4), 356–372 (2015)CrossRef

34.

Fatemi, A., Yang, L.: Cumulative fatigue damage and life prediction theories: a survey of the state of the art for homogeneous materials. Int. J. Fatigue 20(1), 9–34 (1998)CrossRef

Titel: Experimental Characterization of Impact Fatigue Damage in an Adhesive Bonding Using the Second Harmonics
verfasst von: Guoshuang Shui
Xian Song
Jingyu Xi
Yue-Sheng Wang
Publikationsdatum: 01.06.2017
Verlag: Springer US
Erschienen in: Journal of Nondestructive Evaluation / Ausgabe 2/2017
Print ISSN: 0195-9298
Elektronische ISSN: 1573-4862
DOI: https://doi.org/10.1007/s10921-017-0407-7

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