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    Computational seismic evaluation of a curved prestressed concrete I-girder bridge equipped with shape memory alloy

    New search for: Seo, Junwon
    New search for: Rogers, Luke P.
    New search for: Hu, Jong Wan

    This article proposes an analytical modeling approach for seismic evaluation of curved prestressed concrete (PSC) bridges using alternative restraint materials. The approach was applied to a simply supported, curved PSC I-girder bridge subjected to a suite of ground motions. Along with analyzing the response of the bridge without Shape Memory Alloy (SMA), the bridge was retrofitted with SMA components and restraints to reduce its response and both results were compared. SMA components used included dowels in the bearing pad, restraints connecting the girders to the abutments, and piles with SMA characteristics. Results indicated that the SMA components reduced seismic response, and specifically the deformations of the SMA bridge were up to 80% lower than the non-SMA bridge.

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    Computational seismic evaluation of a curved prestressed concrete I-girder bridge equipped with shape memory alloy

    New search for: Seo, Junwon
    New search for: Rogers, Luke P.
    New search for: Hu, Jong Wan

    This article proposes an analytical modeling approach for seismic evaluation of curved prestressed concrete (PSC) bridges using alternative restraint materials. The approach was applied to a simply supported, curved PSC I-girder bridge subjected to a suite of ground motions. Along with analyzing the response of the bridge without Shape Memory Alloy (SMA), the bridge was retrofitted with SMA components and restraints to reduce its response and both results were compared. SMA components used included dowels in the bearing pad, restraints connecting the girders to the abutments, and piles with SMA characteristics. Results indicated that the SMA components reduced seismic response, and specifically the deformations of the SMA bridge were up to 80% lower than the non-SMA bridge.

    Access

    Check access
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    Computational seismic evaluation of a curved prestressed concrete I-girder bridge equipped with shape memory alloy

    New search for: Seo, Junwon
    New search for: Rogers, Luke P.
    New search for: Hu, Jong Wan

    This article proposes an analytical modeling approach for seismic evaluation of curved prestressed concrete (PSC) bridges using alternative restraint materials. The approach was applied to a simply supported, curved PSC I-girder bridge subjected to a suite of ground motions. Along with analyzing the response of the bridge without Shape Memory Alloy (SMA), the bridge was retrofitted with SMA components and restraints to reduce its response and both results were compared. SMA components used included dowels in the bearing pad, restraints connecting the girders to the abutments, and piles with SMA characteristics. Results indicated that the SMA components reduced seismic response, and specifically the deformations of the SMA bridge were up to 80% lower than the non-SMA bridge.

    Access

    Check access
    Check availability in my library
    Order at Subito €

    Access

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    Document information
    Title:

    Computational seismic evaluation of a curved prestressed concrete I-girder bridge equipped with shape memory alloy

    Contributors:

    Seo, Junwon (author) / Rogers, Luke P. (author) / Hu, Jong Wan (author)

    Published in:

    European Journal of Environmental and Civil Engineering ; 24 ; 1881-1900

    Publication date:

    2020-09-18

    Size:

    20 pages

    ISSN:

    1964-8189 , 2116-7214

    DOI:

    https://doi.org/10.1080/19648189.2018.1492972

    Type of media:

    Article (Journal)

    Type of material:

    Electronic Resource

    Language:

    English

    Keywords:

    Curved bridge , precast-prestressed I-girder , bridge , shape memory alloy , seismic analysis , ground motions

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