A Geometric Localization-Based Lamb-Wave-Assisted Method for Precise Damage Localization in Composite Materials

Zhongzheng Zhang; Jianhao Xu; Dongxiao Li; Yongbo Li

doi:10.3233/ATDE260024

A Geometric Localization-Based Lamb-Wave-Assisted Method for Precise Damage Localization in Composite Materials

Zhongzheng Zhang
, Jianhao Xu
, Dongxiao Li
, Yongbo Li

School of Aeronautics

Northwestern Polytechnical University Xian

Research output: Chapter in Book/Report/Conference proceeding › Conference contribution › peer-review

Abstract

The research focuses on the problem of Lamb wave-based damage localization in composite materials and introduces a damage detection method based on geometric localization. The proposed approach determines the damage location by utilizing the geometric relationship between the damage site and transducers, considering the wave velocities of Lamb waves in various propagation directions and their corresponding Time of Flight (ToF). To characterize wave velocity, a dimensionless parameter k(θ) is introduced, and a theoretical model is employed to predict the velocity distribution of S₀-mode Lamb waves in different lay-up configurations. ToF extraction is performed by applying a differential operation to the response signals in undamaged and damaged states, followed by complex Morlet wavelet transform analysis. Experimental results for [0/90]₅ orthogonally laminated carbon fiber composites demonstrate that the proposed method achieves a localization error of no more than 5% for single-damage scenarios and approximately 6% for multiple damage scenarios. These findings validate the effectiveness and reliability of the approach for accurate damage localization under complex conditions, showing potential application prospects in the structural health monitoring of aerospace composite structures.

Original language	English
Title of host publication	Moving Integrated Product Development to Service Clouds in the Global Economy - Proceedings of the 21st ISPE Inc. International Conference on Concurrent Engineering, CE 2014
Editors	Xuelin Lei
Publisher	IOS Press BV
Pages	96-103
Number of pages	8
ISBN (Electronic)	9781643686479
DOIs	https://doi.org/10.3233/ATDE260024
State	Published - 3 Mar 2026
Event	16th International Conference of Mechanical and Aerospace Engineering, ICMAE 2025 - Rome, Italy Duration: 15 Jul 2025 → 18 Jul 2025

Publication series

Name	Advances in Transdisciplinary Engineering
Volume	87
ISSN (Print)	2352-751X
ISSN (Electronic)	2352-7528

Conference

Conference	16th International Conference of Mechanical and Aerospace Engineering, ICMAE 2025
Country/Territory	Italy
City	Rome
Period	15/07/25 → 18/07/25

Keywords

Composite material
Damage localization
Lamb wave
Nondestructive testing
Structural health monitoring

Access to Document

10.3233/ATDE260024

Cite this

Zhang, Z., Xu, J., Li, D., & Li, Y. (2026). A Geometric Localization-Based Lamb-Wave-Assisted Method for Precise Damage Localization in Composite Materials. In X. Lei (Ed.), Moving Integrated Product Development to Service Clouds in the Global Economy - Proceedings of the 21st ISPE Inc. International Conference on Concurrent Engineering, CE 2014 (pp. 96-103). (Advances in Transdisciplinary Engineering; Vol. 87). IOS Press BV. https://doi.org/10.3233/ATDE260024

Zhang, Zhongzheng ; Xu, Jianhao ; Li, Dongxiao et al. / A Geometric Localization-Based Lamb-Wave-Assisted Method for Precise Damage Localization in Composite Materials. Moving Integrated Product Development to Service Clouds in the Global Economy - Proceedings of the 21st ISPE Inc. International Conference on Concurrent Engineering, CE 2014. editor / Xuelin Lei. IOS Press BV, 2026. pp. 96-103 (Advances in Transdisciplinary Engineering).

@inproceedings{e8c03a706d784b68a7aa12f5794610b7,

title = "A Geometric Localization-Based Lamb-Wave-Assisted Method for Precise Damage Localization in Composite Materials",

abstract = "The research focuses on the problem of Lamb wave-based damage localization in composite materials and introduces a damage detection method based on geometric localization. The proposed approach determines the damage location by utilizing the geometric relationship between the damage site and transducers, considering the wave velocities of Lamb waves in various propagation directions and their corresponding Time of Flight (ToF). To characterize wave velocity, a dimensionless parameter k(θ) is introduced, and a theoretical model is employed to predict the velocity distribution of S0-mode Lamb waves in different lay-up configurations. ToF extraction is performed by applying a differential operation to the response signals in undamaged and damaged states, followed by complex Morlet wavelet transform analysis. Experimental results for [0/90]5 orthogonally laminated carbon fiber composites demonstrate that the proposed method achieves a localization error of no more than 5\% for single-damage scenarios and approximately 6\% for multiple damage scenarios. These findings validate the effectiveness and reliability of the approach for accurate damage localization under complex conditions, showing potential application prospects in the structural health monitoring of aerospace composite structures.",

keywords = "Composite material, Damage localization, Lamb wave, Nondestructive testing, Structural health monitoring",

author = "Zhongzheng Zhang and Jianhao Xu and Dongxiao Li and Yongbo Li",

note = "Publisher Copyright: {\textcopyright} 2026 The Authors.; 16th International Conference of Mechanical and Aerospace Engineering, ICMAE 2025 ; Conference date: 15-07-2025 Through 18-07-2025",

year = "2026",

month = mar,

day = "3",

doi = "10.3233/ATDE260024",

language = "英语",

series = "Advances in Transdisciplinary Engineering",

publisher = "IOS Press BV",

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}

Zhang, Z, Xu, J, Li, D & Li, Y 2026, A Geometric Localization-Based Lamb-Wave-Assisted Method for Precise Damage Localization in Composite Materials. in X Lei (ed.), Moving Integrated Product Development to Service Clouds in the Global Economy - Proceedings of the 21st ISPE Inc. International Conference on Concurrent Engineering, CE 2014. Advances in Transdisciplinary Engineering, vol. 87, IOS Press BV, pp. 96-103, 16th International Conference of Mechanical and Aerospace Engineering, ICMAE 2025, Rome, Italy, 15/07/25. https://doi.org/10.3233/ATDE260024

A Geometric Localization-Based Lamb-Wave-Assisted Method for Precise Damage Localization in Composite Materials. / Zhang, Zhongzheng; Xu, Jianhao; Li, Dongxiao et al.
Moving Integrated Product Development to Service Clouds in the Global Economy - Proceedings of the 21st ISPE Inc. International Conference on Concurrent Engineering, CE 2014. ed. / Xuelin Lei. IOS Press BV, 2026. p. 96-103 (Advances in Transdisciplinary Engineering; Vol. 87).

Research output: Chapter in Book/Report/Conference proceeding › Conference contribution › peer-review

TY - GEN

T1 - A Geometric Localization-Based Lamb-Wave-Assisted Method for Precise Damage Localization in Composite Materials

AU - Zhang, Zhongzheng

AU - Xu, Jianhao

AU - Li, Dongxiao

AU - Li, Yongbo

PY - 2026/3/3

Y1 - 2026/3/3

N2 - The research focuses on the problem of Lamb wave-based damage localization in composite materials and introduces a damage detection method based on geometric localization. The proposed approach determines the damage location by utilizing the geometric relationship between the damage site and transducers, considering the wave velocities of Lamb waves in various propagation directions and their corresponding Time of Flight (ToF). To characterize wave velocity, a dimensionless parameter k(θ) is introduced, and a theoretical model is employed to predict the velocity distribution of S0-mode Lamb waves in different lay-up configurations. ToF extraction is performed by applying a differential operation to the response signals in undamaged and damaged states, followed by complex Morlet wavelet transform analysis. Experimental results for [0/90]5 orthogonally laminated carbon fiber composites demonstrate that the proposed method achieves a localization error of no more than 5% for single-damage scenarios and approximately 6% for multiple damage scenarios. These findings validate the effectiveness and reliability of the approach for accurate damage localization under complex conditions, showing potential application prospects in the structural health monitoring of aerospace composite structures.

AB - The research focuses on the problem of Lamb wave-based damage localization in composite materials and introduces a damage detection method based on geometric localization. The proposed approach determines the damage location by utilizing the geometric relationship between the damage site and transducers, considering the wave velocities of Lamb waves in various propagation directions and their corresponding Time of Flight (ToF). To characterize wave velocity, a dimensionless parameter k(θ) is introduced, and a theoretical model is employed to predict the velocity distribution of S0-mode Lamb waves in different lay-up configurations. ToF extraction is performed by applying a differential operation to the response signals in undamaged and damaged states, followed by complex Morlet wavelet transform analysis. Experimental results for [0/90]5 orthogonally laminated carbon fiber composites demonstrate that the proposed method achieves a localization error of no more than 5% for single-damage scenarios and approximately 6% for multiple damage scenarios. These findings validate the effectiveness and reliability of the approach for accurate damage localization under complex conditions, showing potential application prospects in the structural health monitoring of aerospace composite structures.

KW - Composite material

KW - Damage localization

KW - Lamb wave

KW - Nondestructive testing

KW - Structural health monitoring

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M3 - 会议稿件

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BT - Moving Integrated Product Development to Service Clouds in the Global Economy - Proceedings of the 21st ISPE Inc. International Conference on Concurrent Engineering, CE 2014

A2 - Lei, Xuelin

PB - IOS Press BV

T2 - 16th International Conference of Mechanical and Aerospace Engineering, ICMAE 2025

Y2 - 15 July 2025 through 18 July 2025

ER -

Zhang Z, Xu J, Li D, Li Y. A Geometric Localization-Based Lamb-Wave-Assisted Method for Precise Damage Localization in Composite Materials. In Lei X, editor, Moving Integrated Product Development to Service Clouds in the Global Economy - Proceedings of the 21st ISPE Inc. International Conference on Concurrent Engineering, CE 2014. IOS Press BV. 2026. p. 96-103. (Advances in Transdisciplinary Engineering). doi: 10.3233/ATDE260024

A Geometric Localization-Based Lamb-Wave-Assisted Method for Precise Damage Localization in Composite Materials

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