Delamination detection in an I-section glass fiber reinforced plastic beam with an optical fiber-based stress wave method

Yi Jiang; Christopher K.Y. Leung; Mandy Ng; M. Motavalli; Glauco Feltrin; D. Gsell

doi:10.1088/0964-1726/18/6/065003

Delamination detection in an I-section glass fiber reinforced plastic beam with an optical fiber-based stress wave method

Yi Jiang^*, Christopher K.Y. Leung, Mandy Ng, M. Motavalli, Glauco Feltrin, D. Gsell

^*此作品的通讯作者

光电学院

科研成果: 期刊稿件 › 文章 › 同行评审

8 引用（Scopus）

摘要

An optical fiber-based technique for the detection of the delamination at the web/flange junction of an I-section glass fiber reinforced plastic beam is presented. A fiber optical interferometric sensor is adhered to the surface of the web to serve as a stress wave receiver, and a piezoelectric transmitter (PZT) is employed to produce a stress wave in the structure. Several methods are applied to detect the delamination, and summing the frequency spectra from multiple measurements is proved to be effective. From the frequency components of the sensor output corresponding to various positions of the PZT, the delamination location can be revealed. The feasibility of delamination detection with the proposed technique is demonstrated.

源语言	英语
文章编号	065003
期刊	Smart Materials and Structures
卷	18
期	6
DOI	https://doi.org/10.1088/0964-1726/18/6/065003
出版状态	已出版 - 2009

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10.1088/0964-1726/18/6/065003

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Jiang, Y., Leung, C. K. Y., Ng, M., Motavalli, M., Feltrin, G., & Gsell, D. (2009). Delamination detection in an I-section glass fiber reinforced plastic beam with an optical fiber-based stress wave method. Smart Materials and Structures, 18(6), 文章 065003. https://doi.org/10.1088/0964-1726/18/6/065003

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abstract = "An optical fiber-based technique for the detection of the delamination at the web/flange junction of an I-section glass fiber reinforced plastic beam is presented. A fiber optical interferometric sensor is adhered to the surface of the web to serve as a stress wave receiver, and a piezoelectric transmitter (PZT) is employed to produce a stress wave in the structure. Several methods are applied to detect the delamination, and summing the frequency spectra from multiple measurements is proved to be effective. From the frequency components of the sensor output corresponding to various positions of the PZT, the delamination location can be revealed. The feasibility of delamination detection with the proposed technique is demonstrated.",

author = "Yi Jiang and Leung, {Christopher K.Y.} and Mandy Ng and M. Motavalli and Glauco Feltrin and D. Gsell",

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AU - Jiang, Yi

AU - Leung, Christopher K.Y.

AU - Ng, Mandy

AU - Motavalli, M.

AU - Feltrin, Glauco

AU - Gsell, D.

PY - 2009

Y1 - 2009

N2 - An optical fiber-based technique for the detection of the delamination at the web/flange junction of an I-section glass fiber reinforced plastic beam is presented. A fiber optical interferometric sensor is adhered to the surface of the web to serve as a stress wave receiver, and a piezoelectric transmitter (PZT) is employed to produce a stress wave in the structure. Several methods are applied to detect the delamination, and summing the frequency spectra from multiple measurements is proved to be effective. From the frequency components of the sensor output corresponding to various positions of the PZT, the delamination location can be revealed. The feasibility of delamination detection with the proposed technique is demonstrated.

AB - An optical fiber-based technique for the detection of the delamination at the web/flange junction of an I-section glass fiber reinforced plastic beam is presented. A fiber optical interferometric sensor is adhered to the surface of the web to serve as a stress wave receiver, and a piezoelectric transmitter (PZT) is employed to produce a stress wave in the structure. Several methods are applied to detect the delamination, and summing the frequency spectra from multiple measurements is proved to be effective. From the frequency components of the sensor output corresponding to various positions of the PZT, the delamination location can be revealed. The feasibility of delamination detection with the proposed technique is demonstrated.

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M3 - Article

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SN - 0964-1726

VL - 18

JO - Smart Materials and Structures

JF - Smart Materials and Structures

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ER -

Delamination detection in an I-section glass fiber reinforced plastic beam with an optical fiber-based stress wave method

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