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    Damage Detection of Axially Loaded Beam: A Frequency-Based Method

    New search for: Omid Rezaifar

    The present study utilizes an analytical method to formulate the three lowest modal frequencies of axially-loaded notched beam through both crack location and load level in a specific format that can be used in existing frequency-based crack-identification methods. The proposed formula provides a basis to shift into two states, one with axial loading and the other without any loading whatsoever. When any two natural frequencies in simply-supported beam with an open crack, subjected to axial load, are measured, crack position and extent can be determined, using a characteristic equation, which is a function of crack location, sectional flexibility, and eigenvalue (natural frequency). Theoretical results show high accuracy for service axial loads. In this range, errors for crack location and extent are less than 12% and 10%, respectively.

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    Damage Detection of Axially Loaded Beam: A Frequency-Based Method

    New search for: Omid Rezaifar

    The present study utilizes an analytical method to formulate the three lowest modal frequencies of axially-loaded notched beam through both crack location and load level in a specific format that can be used in existing frequency-based crack-identification methods. The proposed formula provides a basis to shift into two states, one with axial loading and the other without any loading whatsoever. When any two natural frequencies in simply-supported beam with an open crack, subjected to axial load, are measured, crack position and extent can be determined, using a characteristic equation, which is a function of crack location, sectional flexibility, and eigenvalue (natural frequency). Theoretical results show high accuracy for service axial loads. In this range, errors for crack location and extent are less than 12% and 10%, respectively.

    Access

    Download

    Damage Detection of Axially Loaded Beam: A Frequency-Based Method

    New search for: Omid Rezaifar

    The present study utilizes an analytical method to formulate the three lowest modal frequencies of axially-loaded notched beam through both crack location and load level in a specific format that can be used in existing frequency-based crack-identification methods. The proposed formula provides a basis to shift into two states, one with axial loading and the other without any loading whatsoever. When any two natural frequencies in simply-supported beam with an open crack, subjected to axial load, are measured, crack position and extent can be determined, using a characteristic equation, which is a function of crack location, sectional flexibility, and eigenvalue (natural frequency). Theoretical results show high accuracy for service axial loads. In this range, errors for crack location and extent are less than 12% and 10%, respectively.

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    Title:

    Damage Detection of Axially Loaded Beam: A Frequency-Based Method

    Contributors:

    Omid Rezaifar (author) / Mohammad Reza Doostmohammadi (author)

    Published in:

    Civil Engineering Infrastructures Journal, Vol 49, Iss 1, Pp 165-172 (2016)

    Publication date:

    2016

    ISSN:

    2322-2093 , 2423-6691

    DOI:

    https://doi.org/10.7508/ceij.2016.01.012

    Type of media:

    Article (Journal)

    Type of material:

    Electronic Resource

    Language:

    Unknown

    Keywords:

    axial load , characteristic equation , damage detection , eigen frequency , notched beam , Engineering (General). Civil engineering (General) , TA1-2040

    Metadata by DOAJ is licensed under ​CC BY-SA 1.0

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