Ultrasonic Pulse Signal Resonance Features in Layered CFRP Within Voids

The ultrasonic pulse signal resonance features in layered carbon fiber reinforced plastic(CFRP) within voids were researched. The frequency domain model of acoustic wave propagation in multilayered medium was established. Then the reflection coefficient of multilayered CFRP within voids was numerica...

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Bibliographic Details
Published inJournal of Wuhan University of Technology. Materials science edition Vol. 32; no. 3; pp. 695 - 702
Main Author 杨辰龙 陈越超 WANG Zhe ZHENG Huifeng
Format Journal Article
LanguageEnglish
Published Wuhan Wuhan University of Technology 01.06.2017
Springer Nature B.V
Subjects
Acoustic propagation
Carbon fiber reinforced plastics
CFRP
Chemistry and Materials Science
Frequency response
Laminates
Materials Science
Mathematical models
Organic Materials
Porosity
Reflectance
Reflection
Resonant frequencies
Ultrasonic testing
Voids
Wave propagation
共振特性
共振频率
孔隙率
层状
特征
碳纤维布
超声脉冲信号
carbon fiber reinforced plastic
reflection coefficient
void
resonance
frequency response
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ISSN1000-2413
1993-0437
DOI10.1007/s11595-017-1654-2

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Summary:The ultrasonic pulse signal resonance features in layered carbon fiber reinforced plastic(CFRP) within voids were researched. The frequency domain model of acoustic wave propagation in multilayered medium was established. Then the reflection coefficient of multilayered CFRP within voids was numerically calculated. The results are as follows. When the CFRP laminate is tested by ultrasonic whose center frequency is close to the CFRP inherent resonant frequency, the ultrasonic may generate resonance phenomenon in CFRP. If CFRP contains evenly distributed voids, the frequency of resonant signal and its amplitude all decrease with the increase of porosity. For the thick section CFRP within local concentrated voids, the local concentrated voids near testing surface will cause signal frequency reduction and the decrease of its amplitude. But the voids which exist in layers far away from testing surface almost have no influence on signal resonance. The ultrasonic pulse echo testing was conducted for thick section CFRP specimen. The analysis results of testing signals were in accordance with the results of the numerical calculation, showing that the reflection coefficient frequency response model can effectively explain the ultrasonic resonance phenomenon in layered CFRP within voids.
Bibliography:carbon fiber reinforced plastic void resonance reflection coefficient frequency response
The ultrasonic pulse signal resonance features in layered carbon fiber reinforced plastic(CFRP) within voids were researched. The frequency domain model of acoustic wave propagation in multilayered medium was established. Then the reflection coefficient of multilayered CFRP within voids was numerically calculated. The results are as follows. When the CFRP laminate is tested by ultrasonic whose center frequency is close to the CFRP inherent resonant frequency, the ultrasonic may generate resonance phenomenon in CFRP. If CFRP contains evenly distributed voids, the frequency of resonant signal and its amplitude all decrease with the increase of porosity. For the thick section CFRP within local concentrated voids, the local concentrated voids near testing surface will cause signal frequency reduction and the decrease of its amplitude. But the voids which exist in layers far away from testing surface almost have no influence on signal resonance. The ultrasonic pulse echo testing was conducted for thick section CFRP specimen. The analysis results of testing signals were in accordance with the results of the numerical calculation, showing that the reflection coefficient frequency response model can effectively explain the ultrasonic resonance phenomenon in layered CFRP within voids.
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ISSN:1000-2413
1993-0437
DOI:10.1007/s11595-017-1654-2