T型加强筋条对弹性导波在薄板中传播行为的影响

Jiaying Sun; Zexing Yu; Chao Xu

doi:10.13465/j.cnki.jvs.2022.13.009

T型加强筋条对弹性导波在薄板中传播行为的影响

Translated title of the contribution: Effects of T-stiffener on propagation behavior of elastic guided wave in thin wall panels

Jiaying Sun, Zexing Yu, Chao Xu

School of Astronautics

Northwestern Polytechnical University Xian

Research output: Contribution to journal › Article › peer-review

1 Scopus citations

Abstract

Stiffened thin wall panels are often used in aerospace, ship and other equipment structures. When using the elastic guided wave method to detect damages of such structures, it is necessary to deeply understand effects of stiffeners on propagation behavior of elastic guided wave in thin-walled structures. Here, aiming at typical T-stiffened wall panel structure in aircraft structure, the interaction mechanism between ultrasonic guided wave and T-stiffener was studied using the numerical simulation method. Variation characteristics of wave propagation behavior caused by presence of stiffener were analyzed in time domain, frequency one and wave number one, respectively. The results showed that existence of stiffener can cause obvious mode conversion phenomenon of propagating wave in structure; with change of excitation frequency, reflection and transmission behaviors of S0 and A0 mode guided waves change obviously.

Translated title of the contribution	Effects of T-stiffener on propagation behavior of elastic guided wave in thin wall panels
Original language	Chinese (Traditional)
Pages (from-to)	67-74
Number of pages	8
Journal	Zhendong yu Chongji/Journal of Vibration and Shock
Volume	41
Issue number	13
DOIs	https://doi.org/10.13465/j.cnki.jvs.2022.13.009
State	Published - 1 Jul 2022

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title = "T型加强筋条对弹性导波在薄板中传播行为的影响",

abstract = "Stiffened thin wall panels are often used in aerospace, ship and other equipment structures. When using the elastic guided wave method to detect damages of such structures, it is necessary to deeply understand effects of stiffeners on propagation behavior of elastic guided wave in thin-walled structures. Here, aiming at typical T-stiffened wall panel structure in aircraft structure, the interaction mechanism between ultrasonic guided wave and T-stiffener was studied using the numerical simulation method. Variation characteristics of wave propagation behavior caused by presence of stiffener were analyzed in time domain, frequency one and wave number one, respectively. The results showed that existence of stiffener can cause obvious mode conversion phenomenon of propagating wave in structure; with change of excitation frequency, reflection and transmission behaviors of S0 and A0 mode guided waves change obviously.",

keywords = "non-reflective boundary condition, stiffened thin wall panel, structural health monitoring, ultrasonic guided wave",

author = "Jiaying Sun and Zexing Yu and Chao Xu",

year = "2022",

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doi = "10.13465/j.cnki.jvs.2022.13.009",

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T1 - T型加强筋条对弹性导波在薄板中传播行为的影响

AU - Sun, Jiaying

AU - Yu, Zexing

AU - Xu, Chao

PY - 2022/7/1

Y1 - 2022/7/1

N2 - Stiffened thin wall panels are often used in aerospace, ship and other equipment structures. When using the elastic guided wave method to detect damages of such structures, it is necessary to deeply understand effects of stiffeners on propagation behavior of elastic guided wave in thin-walled structures. Here, aiming at typical T-stiffened wall panel structure in aircraft structure, the interaction mechanism between ultrasonic guided wave and T-stiffener was studied using the numerical simulation method. Variation characteristics of wave propagation behavior caused by presence of stiffener were analyzed in time domain, frequency one and wave number one, respectively. The results showed that existence of stiffener can cause obvious mode conversion phenomenon of propagating wave in structure; with change of excitation frequency, reflection and transmission behaviors of S0 and A0 mode guided waves change obviously.

AB - Stiffened thin wall panels are often used in aerospace, ship and other equipment structures. When using the elastic guided wave method to detect damages of such structures, it is necessary to deeply understand effects of stiffeners on propagation behavior of elastic guided wave in thin-walled structures. Here, aiming at typical T-stiffened wall panel structure in aircraft structure, the interaction mechanism between ultrasonic guided wave and T-stiffener was studied using the numerical simulation method. Variation characteristics of wave propagation behavior caused by presence of stiffener were analyzed in time domain, frequency one and wave number one, respectively. The results showed that existence of stiffener can cause obvious mode conversion phenomenon of propagating wave in structure; with change of excitation frequency, reflection and transmission behaviors of S0 and A0 mode guided waves change obviously.

KW - non-reflective boundary condition

KW - stiffened thin wall panel

KW - structural health monitoring

KW - ultrasonic guided wave

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JO - Zhendong yu Chongji/Journal of Vibration and Shock

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T型加强筋条对弹性导波在薄板中传播行为的影响

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