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    NUMERICAL SIMULATION OF ULTRASONIC DETECTION FOR CONCRETE STRUCTURE BASED ON EQUIVALENT OFFSET MIGRATION

    New search for: Mingshun Hu
    New search for: Juanjuan Li
    New search for: Dongming Pan
    New search for: Shenen Chen

    Ultrasonic wave testing is a classic Non-destructive testing (NDT) method to detect, locate and monitor the crack/fracture in construction materials. However, it is still hard to examine those small abnormal bodies since effective reflected signal from abnormity is usually rather weak. In this paper, a new ultrasound imaging technique, equivalent offset migration (EOM), is studied to demonstrate the feasibility and applicability for detecting concrete cracks. Thus, a complex numerical model along with six small scale flaws was built, and then the ultrasonic wave propagation in concrete was modeled by high order finite difference approximation method. Numerical simulation indicates that 1) there exists a strong scattering phenomenon while ultrasound propagates in concrete with multiple small scatter flaws, and 2) EOM is capable of imaging small flaws in concrete with high resolution and accuracy.

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    NUMERICAL SIMULATION OF ULTRASONIC DETECTION FOR CONCRETE STRUCTURE BASED ON EQUIVALENT OFFSET MIGRATION

    New search for: Mingshun Hu
    New search for: Juanjuan Li
    New search for: Dongming Pan
    New search for: Shenen Chen

    Ultrasonic wave testing is a classic Non-destructive testing (NDT) method to detect, locate and monitor the crack/fracture in construction materials. However, it is still hard to examine those small abnormal bodies since effective reflected signal from abnormity is usually rather weak. In this paper, a new ultrasound imaging technique, equivalent offset migration (EOM), is studied to demonstrate the feasibility and applicability for detecting concrete cracks. Thus, a complex numerical model along with six small scale flaws was built, and then the ultrasonic wave propagation in concrete was modeled by high order finite difference approximation method. Numerical simulation indicates that 1) there exists a strong scattering phenomenon while ultrasound propagates in concrete with multiple small scatter flaws, and 2) EOM is capable of imaging small flaws in concrete with high resolution and accuracy.

    Access

    Download

    NUMERICAL SIMULATION OF ULTRASONIC DETECTION FOR CONCRETE STRUCTURE BASED ON EQUIVALENT OFFSET MIGRATION

    New search for: Mingshun Hu
    New search for: Juanjuan Li
    New search for: Dongming Pan
    New search for: Shenen Chen

    Ultrasonic wave testing is a classic Non-destructive testing (NDT) method to detect, locate and monitor the crack/fracture in construction materials. However, it is still hard to examine those small abnormal bodies since effective reflected signal from abnormity is usually rather weak. In this paper, a new ultrasound imaging technique, equivalent offset migration (EOM), is studied to demonstrate the feasibility and applicability for detecting concrete cracks. Thus, a complex numerical model along with six small scale flaws was built, and then the ultrasonic wave propagation in concrete was modeled by high order finite difference approximation method. Numerical simulation indicates that 1) there exists a strong scattering phenomenon while ultrasound propagates in concrete with multiple small scatter flaws, and 2) EOM is capable of imaging small flaws in concrete with high resolution and accuracy.

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    Title:

    NUMERICAL SIMULATION OF ULTRASONIC DETECTION FOR CONCRETE STRUCTURE BASED ON EQUIVALENT OFFSET MIGRATION

    Contributors:

    Mingshun Hu (author) / Juanjuan Li (author) / Dongming Pan (author) / Shenen Chen (author)

    Published in:

    Civil Engineering Journal, Vol 2017, Iss 4, Pp 497-506 (2017)

    Publication date:

    2017

    ISSN:

    1805-2576

    DOI:

    https://doi.org/10.14311/CEJ.2017.04.0040

    Type of media:

    Article (Journal)

    Type of material:

    Electronic Resource

    Language:

    Unknown

    Keywords:

    Equivalent offset migration (EOM) , Common scatter point (CSP) gather , Non-destructive testing (NDT) , Ultrasonic wave , Concrete , Engineering (General). Civil engineering (General) , TA1-2040

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

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