Sensor Location Analysis in Nonlinear Acoustics Used for Damage Detection in Composite Chiral Sandwich Panels

机译：复合手性夹层板造成损伤检测的非线性声学传感器定位分析

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This paper demonstrates damage detection in a smart sandwich panel with integrated piezoceramic transducers. The panel is built from a chiral honeycomb and two composite skins. A low-profile, surface-bonded piezoceramic transducer is used for high-frequency ultrasonic excitation. Low-frequency excitation is performed using an electromagnetic shaker. Ultrasonic sensing is performed using laser vibrometry. Nonlinear acoustics is applied for damage detection. The study is focused on sensor location analysis with respect to vibro-acoustic wave modulations. The paper demonstrates that when structure is damaged, the high-frequency "weak" ultrasonic wave is modulated by the low-frequency "strong" vibration wave. As a result frequency sidebands can be observed around the main acoustic harmonic in the spectrum of the ultrasonic signal. However, intensity of modulation strongly depends on sensor location.

机译：本文展示了具有集成压电陶瓷传感器的智能夹层板中的损坏检测。该面板是由手性蜂窝和两种复合皮肤构建的。低型材表面粘合的压电陶瓷换能器用于高频超声波激发。使用电磁振动器进行低频激励。使用激光振动器进行超声波感测。非线性声学应用于损坏检测。该研究专注于相对于振动声波调制的传感器定位分析。本文表明，当结构损坏时，高频“弱”超声波被低频“强”振动波调制。结果可以在超声信号的频谱中围绕主声谐波观察到频率边带。然而，调制强度强烈取决于传感器位置。

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《International Conference on "Smart Materials, Structures, and Systems";CIMTEC 2012》|2013年||共9页
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Andrzej Klepka; Wieslaw J. Staszewski; Dario di Maio; Fabrizio Scarpa; Kong-Fah Tee; Tadeusz Uhl;
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中图分类 71.22083;
关键词
Chiral structures; Impact damage detection; Nonlinear acoustics; Piezoceramic transducers; Sensor location analysis;

机译：手性结构;冲击损伤检测;非线性声学;压电陶瓷传感器;传感器定位分析;

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1. Impact damage detection in composite chiral sandwich panels using nonlinear vibro-acoustic modulations [J] . Klepka A., Staszewski W.J., Di Maio D., Smart Materials & Structures . 2013,第8期

机译：使用非线性振动声调制的复合手性夹芯板冲击损伤检测
2. Impact damage detection in light composite sandwich panels using piezo-based nonlinear vibro-acoustic modulations [J] . L Pieczonka, P Ukowski, A Klepka, Smart Materials & Structures . 2014,第10期

机译：使用基于压电的非线性振动声调制，在轻质复合夹芯板上的冲击损伤检测
3. Impact damage detection in smart composites using nonlinear acoustics-cointegration analysis for removal of undesired load effect [J] . Dao Phong B., Klepka Andrzej, Pieczonka Lukasz, Smart Materials & Structures . 2017,第3期

机译：使用非线性声学 - 协整分析来消除不需要负载效应的智能复合材料中的冲击损伤检测
4. Sensor Location Analysis in Nonlinear Acoustics Used for Damage Detection in Composite Chiral Sandwich Panels [C] . Andrzej Klepka, Wieslaw J. Staszewski, Dario di Maio, International Conference on "Smart Materials, Structures, and Systems" . 2013

机译：复合手性三明治面板损伤检测非线性声学传感器定位分析
5. Material damage modeling and detection in a thin metallic sheet and sandwich panel using passive acoustic transmission. [D] . Jiang, Hao. 2008

机译：使用被动声波传输在薄金属板和夹心板中进行材料损坏建模和检测。
6. Defect Detection in Aerospace Sandwich Composite Panels Using Conductive Thermography and Contact Sensors [O] . David I. Gillespie, Andrew W. Hamilton, Robert C. Atkinson, 2020

机译：航空航天夹层复合板的缺陷检测使用导电热成像和接触传感器
7. Impact damage detection in light composite sandwich panels [O] . Pieczonka L, Aymerich F, Staszewski W J 2014

机译：轻质复合夹芯板的冲击损伤检测
8. Damage Tolerance Evaluation of Sandwich Composite Fuselage Panels - Analysis [R] . Raju, K. S., Tomblin, J. S. 2010

机译：夹层复合材料机身板的损伤容限评估 - 分析

Sensor Location Analysis in Nonlinear Acoustics Used for Damage Detection in Composite Chiral Sandwich Panels

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