A simplified analytical model for the investigation of contact acoustic nonlinearity in pipe structures

•An analytical model was established for contact acoustic nonlinearity in pipes;•Multimode second harmonic waves were obtained and proportion of them was studied;•A nonlinear index was proposed for the quantitative assessment of fatigue crack. A simplified analytical model of contact acoustic nonlin...

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Bibliographic Details
Published in:International journal of mechanical sciences 2021-05, Vol.197, p.106328, Article 106328
Main Authors: Guan, Ruiqi, Lu, Ye, Zou, Fangxin, Wang, Kai, Su, Zhongqing
Format: Article
Language:English
Subjects:
analytical model
Contact acoustic nonlinearity
multimodal second harmonic waves
pipe structures
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Summary:•An analytical model was established for contact acoustic nonlinearity in pipes;•Multimode second harmonic waves were obtained and proportion of them was studied;•A nonlinear index was proposed for the quantitative assessment of fatigue crack. A simplified analytical model of contact acoustic nonlinearity (CAN) in pipe structures was established and verified by finite element modelling to analyse the multimode second harmonic waves induced by a breathing crack. The analytical model was developed from plate to pipe structures with S-parameter formulation applied for the investigation of second harmonic generation where pure longitudinal wave mode excitation was used. A numerical simulation model with the same excitation condition was developed to confirm the results from the theoretical analysis. Multimode second harmonic waves were obtained in both analytical and simulation models and the proportion of different modes in terms of axial amplitude was also studied. A new nonlinear index was finally proposed for the quantitative assessment of fatigue crack growth in pipe structures. Simplified analytical model and comparison with finite element simulation for contact acoustic nonlinearity (CAN) in pipe structures [Display omitted]
ISSN:0020-7403
1879-2162
DOI:10.1016/j.ijmecsci.2021.106328