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    A Strain Sensing Structural Health Monitoring System for Delaminated Composite Structures

    New search for: Alaimo, Andrea
    New search for: Milazzo, Alberto
    New search for: Orlando, Calogero

    Structural Health Monitoring (SHM) for composite materials is becoming a primary task due to their extended use in safety critical applications. Different methods, based on the use of piezoelectric transducers as well as of fiber optics, has been successfully proposed to detect and monitor damage in composite structural components with particular attention focused on delamination cracks. In the present paper a Structural Health Monitoring model, based on the use of piezoelectric sensors, already proposed by the authors for isotropic damaged components, is extended to delaminated composite structures. The dynamic behavior of the host damaged structure and the bonded piezoelectric sensors is modeled by means of a boundary element approach based on the Dual Reciprocity BEM. The sensitivity of the piezoelectric sensors has been studied by varying the delamination length characterizing the skin/stiffener debonding phenomenon of composite structures undergoing dynamic loads.

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    A Strain Sensing Structural Health Monitoring System for Delaminated Composite Structures

    New search for: Alaimo, Andrea
    New search for: Milazzo, Alberto
    New search for: Orlando, Calogero

    Structural Health Monitoring (SHM) for composite materials is becoming a primary task due to their extended use in safety critical applications. Different methods, based on the use of piezoelectric transducers as well as of fiber optics, has been successfully proposed to detect and monitor damage in composite structural components with particular attention focused on delamination cracks. In the present paper a Structural Health Monitoring model, based on the use of piezoelectric sensors, already proposed by the authors for isotropic damaged components, is extended to delaminated composite structures. The dynamic behavior of the host damaged structure and the bonded piezoelectric sensors is modeled by means of a boundary element approach based on the Dual Reciprocity BEM. The sensitivity of the piezoelectric sensors has been studied by varying the delamination length characterizing the skin/stiffener debonding phenomenon of composite structures undergoing dynamic loads.

    Access

    Access via TIB
    Check availability in my library
    Order at Subito €

    A Strain Sensing Structural Health Monitoring System for Delaminated Composite Structures

    New search for: Alaimo, Andrea
    New search for: Milazzo, Alberto
    New search for: Orlando, Calogero

    Structural Health Monitoring (SHM) for composite materials is becoming a primary task due to their extended use in safety critical applications. Different methods, based on the use of piezoelectric transducers as well as of fiber optics, has been successfully proposed to detect and monitor damage in composite structural components with particular attention focused on delamination cracks. In the present paper a Structural Health Monitoring model, based on the use of piezoelectric sensors, already proposed by the authors for isotropic damaged components, is extended to delaminated composite structures. The dynamic behavior of the host damaged structure and the bonded piezoelectric sensors is modeled by means of a boundary element approach based on the Dual Reciprocity BEM. The sensitivity of the piezoelectric sensors has been studied by varying the delamination length characterizing the skin/stiffener debonding phenomenon of composite structures undergoing dynamic loads.

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    Title:

    A Strain Sensing Structural Health Monitoring System for Delaminated Composite Structures

    Contributors:

    Alaimo, Andrea (author) / Milazzo, Alberto (author) / Orlando, Calogero (author)

    Published in:

    ICAMME, International Conference on Applied Mechanics and Mechanical Engineering, 3 ; 849-855

    Applied Mechanics and Materials ; 249-250

    Publication date:

    2012

    Size:

    7 Seiten

    ISSN:

    1660-9336

    DOI:

    https://doi.org/10.4028/www.scientific.net/AMM.249-250.849

    Type of media:

    Conference paper

    Type of material:

    Print

    Language:

    English

    Keywords:

    dynamisches Verhalten , Schichtablösung , piezoelektrischer Aufnehmer , Rand-Elemente-Methode , Verbundwerkstoff , Bauwerksüberwachung , Verbundstruktur , Versteifungsmittel , Faseroptik , tragendes Bauteil , Beobachtungssystem , Monitoring-Tool , Sicherheitsanwendung , Differenzenverfahren

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