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Russian Journal of Nondestructive Testing

Erschienen in:

01.01.2024 | ACOUSTIC METHODS

Characterization of Crack Damages in Composite Materials by Using Frequency- and Time-Domain Analysis

verfasst von: Rongxin Sun, Wei Li, Cong Liu, Peng Jiang, Chang Yang, Feng Yang

Erschienen in: Russian Journal of Nondestructive Testing | Ausgabe 1/2024

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Abstract

Characterization methods for material damage are a critical area of research, as comprehensive detection techniques can significantly enhance safety in production processes. This paper utilizes experimental and numerical methods to explore the relationship between nonlinear coefficients derived from frequency-domain analysis results and crack damages in composite materials. Additionally, it analyzes the time-domain responses of three excitation signals along asymmetric paths under various damage scenarios, revealing distinctive characteristics of damaged materials. Furthermore, it investigates cross-correlation coefficients between different target damages and the damage-free case in the same path direction. Numerical results demonstrate a correlation between the extent of damage and the cross-correlation coefficient. The study also highlights that different excitation signals exhibit varying sensitivities to different damage types. Lastly, a damage index is proposed to quantify the interaction between the propagation path and damage, enabling a more accurate characterization of material damage. This study serves as a valuable complement to existing material damage characterization methods.

Vorheriger Artikel Features of Application of Adaptive Interferometric Fiber Optic Sensors of Acoustic Emission to Monitor the Condition of Polymer Composite Materials

Nächster Artikel Study of Additive Manufacturing Products Using Neutron Imaging

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Meo, M., Polimeno, U., and Zumpano, P., Detecting damage in composite material using nonlinear elastic wave spectroscopy methods, Appl. Compos. Mater., 2008, vol. 15, no. 3, pp. 115–126.CrossRef

Qu, W., Li, Z., Wang, Z., and Xiao, L., Damage detection and localization using nonlinear ultrasonic modulation method, Vib. Test. Diagn., 2016, vol. 36, no. 5, pp. 852–857.

Zhao, Y., Li, F., Cao, P., Liu, Y., Zhang, J., Fu, S., Zhang, J., and Hu, N., Peneration mechanism of nonlinear ultrasonic Lamb waves in thin plates with randomly distributed micro-cracks, Ultrasonics, 2017, vol. 79, pp. 60–67.CrossRefPubMed

He, C., Study on nonlinear ultrasonic detection method for porosity of composite materials, Master Thesis, Changsha Univ. Sci. Technol., Changsha, 2020.

Ying, T., Zhang, Q., Hou, Y., and Li, C., Impact damage assessment in orthotropic CFRP laminates using nonlinear Lamb wave: Experimental and numerical investigations, Compos. Struct., 2020, vol. 236, p. 111869.

Rauter, N., Lammering, R., and Kühnrich, T., On the detection of fatigue damage in composites by use of second harmonic guided waves, Compos. Struct., 2016, vol. 152, pp. 247–258.CrossRef

Pineda Allen, J.C. and Ng, C.T., Debonding detection at adhesive joints using nonlinear Lamb waves mixing, NDT & E Int., 2022, vol. 125, p. 102552.

Cong, S., Tie, Y., Zhang, C., and Yin, Z., Research on low-velocity impact damage of composite materials based on nonlinear Lamb wave mixing detection technology, Compos. Sci. Eng., 2021, no. 10, pp. 26–33.

Li, W., Deng, M., Hu, N., and Xiang, Y., Theoretical analysis and experimental observation of frequency mixing response of ultrasonic Lamb waves, J. Appl. Phys., 2018, vol. 124, no. 4, p. 044901.

10.

He Cunfu, Jiao Jingpin, Wu Bin, Meng, and Xiangji, Nonlinear Lamb wave-mixing technique for microcrack detection in plates, NDT & E Int., 2017, vol. 85, pp. 63–71.CrossRef

11.

Metya, A.K., Tarafder, S., and Balasubramaniam, K., Nonlinear Lamb wave mixing for assessing localized deformation during creep, NDT & E Int., 2018, vol. 98, pp. 89–94.CrossRef

12.

Shan, S. and Cheng, L., Mode-mixing-induced second harmonic A0 mode Lamb wave for local incipient damage inspection, Smart Mater. Struct., 2020, vol. 29, no. 5, p. 055020.

13.

Ding, X., Zhao, Y., Deng, M., Shui, P., and Hu, N., One-way Lamb mixing method in thin plates with randomly distributed micro-cracks, Int. J. Mech. Sci., 2020, vol. 171, p. 105371.

14.

Wang, H., Wang, L., and Tian, R., Structural damage detection using correlation functions of time domain vibration responses and data fusion, Eng. Mech., 2020, vol. 37, no. 9, pp. 30–37, 111.

15.

Xue, J. and Zhang, M., Structure damage indicator based on time domain correlation analysis, Earthq. Eng. Eng. Vib., 2006, vol. 26, no. 2, pp. 62–65.

16.

Eremin, A., Plushkov, E., Plushkova, N., and Lammering, R., Puided wave time-reversal imaging of macroscopic localized inhomogeneities in anisotropic composites, Struct. Health Monit., 2019, vol. 18, nos. 5–6, pp. 1803–1819.CrossRef

17.

Liu, Z., Yu, H., Fan, J., Hu, Y., He, C., and Wu, B., Baseline-free delamination inspection in composite plates by synthesizing non-contact air-coupled Lamb wave scan method and virtual time reversal algorithm, Smart Mater. Struct., 2015, vol. 24, no. 4, p. 045014.

18.

Wang, J. and Shen, Y., An enhanced Lamb wave virtual time reversal technique for damage detection with transducer transfer function compensation, Smart Mater. Struct., 2019, vol. 28, no. 8, p. 085017.

19.

Mustapha, S. and Ye, L., Propagation behavior of guided waves in tapered sandwich structures and debonding identification using time reversal, Wave Motion, 2015, vol. 57, pp. 154–170.CrossRef

20.

Sherafat, M.H., Quaegebeur, N., Hubert, P., Lessard, L., and Masson, P., Finite element modeling of Lamb wave propagation in composite stepped joints, J. Reinf. Plast. Compos., 2016, vol. 35, no. 10, pp. 796–806.CrossRef

21.

Jhang, K.Y., Quan, H.H., Ha, J., and Kim, N.Y., Estimation of clamping force in high-tension bolts through ultrasonic velocity measurement, Ultrasonics, 2006, vol. 44, no. S8, pp. e1339-42.CrossRefPubMed

22.

De Luca, A., Caputo, F., Sharif Khodaei, Z., and Aliabadi, M.H., Damage characterization of composite plates under low velocity impact using ultrasonic guided waves, Compos. Part B Eng., 2018, vol. 138, pp. 168–180.CrossRef

23.

Scarselli, P., Ciampa, F., Pinzburg, D., and Meo, M., Non-destructive testing techniques based on nonlinear methods for assessment of debonding in single lap joints, in Structural Health Monitoring and Inspection of Advanced Materials, Aerospace, and Civil Infrastructure 2015, Bellingham: SPIE, 2015, vol. 9437, pp. 31–41.

24.

Hu, H., Zou, Z., and Jiang, Y., Finite element simulation and experimental study of residual stress testing using nonlinear ultrasonic surface wave technique, Appl. Acoust., 2019, vol. 154, pp. 11–17.CrossRef

25.

Yuan, B., Shui, P., and Wang, Y., Advances in research of nonlinear ultrasonic wave mixing detection technology in non-destructive evaluation, J. Mech. Eng., 2019, vol. 55, no. 16, pp. 33–46.CrossRef

26.

Zhou, Z., Nonlinear ultrasonic techniques used in nondestructive testing: A review, J. Mech. Eng., 2011, vol. 47, no. 8, pp. 2–11.CrossRef

27.

Mevissen, F. and Meo, M., A nonlinear ultrasonic modulation method for crack detection in turbine blades, Aerospace, 2020, vol. 7, no. 6, p. 72.CrossRef

Titel: Characterization of Crack Damages in Composite Materials by Using Frequency- and Time-Domain Analysis
verfasst von: Rongxin Sun
Wei Li
Cong Liu
Peng Jiang
Chang Yang
Feng Yang
Publikationsdatum: 01.01.2024
Verlag: Pleiades Publishing
Erschienen in: Russian Journal of Nondestructive Testing / Ausgabe 1/2024
Print ISSN: 1061-8309
Elektronische ISSN: 1608-3385
DOI: https://doi.org/10.1134/S1061830923600582

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