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    Upgrading of isolated bridges with uniform gapped HS devices

    New search for: Jelena Ristić
    New search for: Danilo Ristić
    New search for: Viktor Hristovski

    The conducted extensive experimental seismic analysis showed seismic performances of a constructed large-scale bridge model representing system of upgraded isolated bridge with uniform gapped horizontal S-shaped devices (GHS System). The GHS system constituted double spherical rolling isolating bearings (DSRIB) and created original uniform horizontal S-shaped multi-gap (HS-MG) energy dissipation devices. With conducted laboratory cyclic tests, stable all-directional hysteretic responses were confirmed for both the DSRIB and HS-MG devices. In the dynamic seismic shaking table testing, the GHS bridge system showed favourable seismic response performances contributing to efficient bridge system protection. The established new GHS system exhibited large potential for qualitative improvement of seismic safety of isolated bridges exposed to very strong earthquakes.

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    Upgrading of isolated bridges with uniform gapped HS devices

    New search for: Jelena Ristić
    New search for: Danilo Ristić
    New search for: Viktor Hristovski

    The conducted extensive experimental seismic analysis showed seismic performances of a constructed large-scale bridge model representing system of upgraded isolated bridge with uniform gapped horizontal S-shaped devices (GHS System). The GHS system constituted double spherical rolling isolating bearings (DSRIB) and created original uniform horizontal S-shaped multi-gap (HS-MG) energy dissipation devices. With conducted laboratory cyclic tests, stable all-directional hysteretic responses were confirmed for both the DSRIB and HS-MG devices. In the dynamic seismic shaking table testing, the GHS bridge system showed favourable seismic response performances contributing to efficient bridge system protection. The established new GHS system exhibited large potential for qualitative improvement of seismic safety of isolated bridges exposed to very strong earthquakes.

    Access

    Download

    Upgrading of isolated bridges with uniform gapped HS devices

    New search for: Jelena Ristić
    New search for: Danilo Ristić
    New search for: Viktor Hristovski

    The conducted extensive experimental seismic analysis showed seismic performances of a constructed large-scale bridge model representing system of upgraded isolated bridge with uniform gapped horizontal S-shaped devices (GHS System). The GHS system constituted double spherical rolling isolating bearings (DSRIB) and created original uniform horizontal S-shaped multi-gap (HS-MG) energy dissipation devices. With conducted laboratory cyclic tests, stable all-directional hysteretic responses were confirmed for both the DSRIB and HS-MG devices. In the dynamic seismic shaking table testing, the GHS bridge system showed favourable seismic response performances contributing to efficient bridge system protection. The established new GHS system exhibited large potential for qualitative improvement of seismic safety of isolated bridges exposed to very strong earthquakes.

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    Title:

    Upgrading of isolated bridges with uniform gapped HS devices

    Contributors:

    Jelena Ristić (author) / Danilo Ristić (author) / Viktor Hristovski (author)

    Published in:

    Građevinar, Vol 74, Iss 12., Pp 1047-1058 (2023)

    Publication date:

    2023

    ISSN:

    0350-2465 , 1333-9095

    DOI:

    https://doi.org/10.14256/JCE.3580.2022

    Type of media:

    Article (Journal)

    Type of material:

    Electronic Resource

    Language:

    Unknown

    Keywords:

    bridge , seismic isolation , energy dissipation , bridge safety , seismic shaking table , Engineering (General). Civil engineering (General) , TA1-2040

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

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