Acoustoelastic guided and surface waves in waveguides with focus on non-destructive testing and structural health monitoring applications — A review of recent studies

Non-destructive testing using acoustic waves has emerged as a potential high-impact technology for improving the safety of elastic structures and reducing life-cycle costs. Although this technology has seen a number of signiﬁcant developments, normal operational conditions, such as applied stresses,...

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Published in	International journal of non-linear mechanics Vol. 167; p. 104912
Main Authors	Zhang, Bo, Othmani, Cherif, Khelfa, Tarek, Zhang, He, Lü, Chaofeng, Njeh, Anouar
Format	Journal Article
Language	English
Published	Elsevier Ltd 01.12.2024
Subjects	Acoustoelasticity Elastic structures Elastodynamic waves Initial stresses Phase velocity Elastodynamic waves Acoustoelasticity Phase velocity Initial stresses Elastic structures
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Abstract	Non-destructive testing using acoustic waves has emerged as a potential high-impact technology for improving the safety of elastic structures and reducing life-cycle costs. Although this technology has seen a number of signiﬁcant developments, normal operational conditions, such as applied stresses, may hamper its reliability in terms of defects detection. In this context, the nonlinear interactions between the mechanical stress in the materials and the acoustic waves have been studied over the years. The influence of applied stress on acoustic wave propagation is commonly termed acoustoelasticity. It is worth noting that the acoustoelastic effect property is deeply related to the acoustic modes propagation, direction of waves propagation and the material nonlinearity. Thus, understanding the acoustoelastic phenomena may be crucial to fully exploit the benefits of the non-destructive technology. For instance, since damage and applied stress cause changes on wave phase velocity, the damage-induced change should be distinguished from the stress-induced change. Meanwhile, well understanding stress-induced changes can yield the opportunities of stress measurement. To the best of the author's knowledge, there is no review on the subject of acoustoelastic effects. This paper reviews most of the corresponding studies published in recent years, with an emphasis on non-destructive testing and structural health monitoring applications. The main objective of this review paper is to collate the research performed in the area of acoustoelastic effects during the last 23 years, thereby giving a broad perspective on the state of the art in this research field. Moreover, some disputed and obscure understandings of the acoustoelastic effects are discussed, and the relationship between the initial stress and the material symmetry is examined. •Review and critical analysis of the linear and nonlinear acoustoelasticity.•Review and critical analysis of the surface and guided modes for the prestressed structures.•Review and critical analysis of the compressive and tensile stresses.
AbstractList	Non-destructive testing using acoustic waves has emerged as a potential high-impact technology for improving the safety of elastic structures and reducing life-cycle costs. Although this technology has seen a number of signiﬁcant developments, normal operational conditions, such as applied stresses, may hamper its reliability in terms of defects detection. In this context, the nonlinear interactions between the mechanical stress in the materials and the acoustic waves have been studied over the years. The influence of applied stress on acoustic wave propagation is commonly termed acoustoelasticity. It is worth noting that the acoustoelastic effect property is deeply related to the acoustic modes propagation, direction of waves propagation and the material nonlinearity. Thus, understanding the acoustoelastic phenomena may be crucial to fully exploit the benefits of the non-destructive technology. For instance, since damage and applied stress cause changes on wave phase velocity, the damage-induced change should be distinguished from the stress-induced change. Meanwhile, well understanding stress-induced changes can yield the opportunities of stress measurement. To the best of the author's knowledge, there is no review on the subject of acoustoelastic effects. This paper reviews most of the corresponding studies published in recent years, with an emphasis on non-destructive testing and structural health monitoring applications. The main objective of this review paper is to collate the research performed in the area of acoustoelastic effects during the last 23 years, thereby giving a broad perspective on the state of the art in this research field. Moreover, some disputed and obscure understandings of the acoustoelastic effects are discussed, and the relationship between the initial stress and the material symmetry is examined. •Review and critical analysis of the linear and nonlinear acoustoelasticity.•Review and critical analysis of the surface and guided modes for the prestressed structures.•Review and critical analysis of the compressive and tensile stresses.
ArticleNumber	104912
Author	Othmani, Cherif Lü, Chaofeng Khelfa, Tarek Njeh, Anouar Zhang, Bo Zhang, He
Author_xml	– sequence: 1 givenname: Bo surname: Zhang fullname: Zhang, Bo organization: School of Mechanical and Power Engineering, Henan Polytechnic University, Jiaozuo, Henan, 454003, China – sequence: 2 givenname: Cherif surname: Othmani fullname: Othmani, Cherif email: cherif.othmani@tu-dresden.de, othmanicheriffss@gmail.com organization: Dresden University of Technology, 01062, Dresden, Germany – sequence: 3 givenname: Tarek surname: Khelfa fullname: Khelfa, Tarek organization: Department of Materials Engineering, School of Energy and Electromechanical Engineering, Hunan University of Humanities Science and Technology, Loudi, 417000, China – sequence: 4 givenname: He surname: Zhang fullname: Zhang, He organization: Department of Civil Engineering, Zhejiang University, Hangzhou, 310058, China – sequence: 5 givenname: Chaofeng surname: Lü fullname: Lü, Chaofeng organization: Department of Civil Engineering, Zhejiang University, Hangzhou, 310058, China – sequence: 6 givenname: Anouar surname: Njeh fullname: Njeh, Anouar organization: Laboratory of Physics of Materials, Faculty of Sciences of Sfax, University of Sfax, PB 815, 3018, Sfax, Tunisia
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Keywords	Elastodynamic waves Acoustoelasticity Phase velocity Initial stresses Elastic structures
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Snippet	Non-destructive testing using acoustic waves has emerged as a potential high-impact technology for improving the safety of elastic structures and reducing...
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SubjectTerms	Acoustoelasticity Elastic structures Elastodynamic waves Initial stresses Phase velocity
Title	Acoustoelastic guided and surface waves in waveguides with focus on non-destructive testing and structural health monitoring applications — A review of recent studies
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